Latest revision as of 18:32, 11 April 2024

Description[edit | edit source]

PlayStation 2 emulation on the PlayStation 4 is handled with little difference to the PlayStation 3,
as some issues on the PlayStation 3 were not fixed on the PlayStation 4's emulator. As a result, the PS4 inherited some of PS3's emulation glitches, along with introducing new ones.
That came as a result of PS4's weakness towards emulation, which likely pressured Sony into trading accuracy for performance.

Each PS2ONPS4 package file (.pkg) includes the emulator itself. The ps4 does not have a native built-in emulator in its firmware, but it does a few PS2 emulator specific features, like the functions sceLncUtilIsPs2Emu, sceShellCoreUtilGetImposeMenuFlagForPs2Emu, sceSystemServiceAddLocalProcessForPs2Emu, and sceSystemServiceShowImposeMenuForPs2Emu.

Emulators are programmed to be accurate for the games they were designed to emulate. In turn, this makes accurate emulation challenging, as emulators include per title patches and different default settings. The Playstation 2 hardware is a complex system to emulate; any small change in configuration can make or break a game.
Currently the most commonly used emulator is Jakv2 as it is the most compatible one out there. When game crashes are concerned, RECVX is typically used, whereas for VU accuracy it is roguev1.

The PS2 BIOS is included in the game's pkg, the same one used on the ps2_netemu. The lack of encryption mechanism for PS2 game disc image file is also important. This time it is a plain ISO file, but the emulator still supports LIMG sector that allows the usage of non-2048 sector size discs. Moreover, memory cards are also decrypted, but the emulator checks the CRC of some of the regions to ensure that the memory card was not modified. This PS2 Emulator also supports LUA scripting by "Lua Bridge", which is a powerful interface that may prove exceptionally handy in fixing games.

This is first time that Sony has ever cared about floats in its emulators. Compared to the PS3 CPU, x86-64 is doing a worse job in mimicking FPU and VU floats calculation behavior. This is resolved by clamping, accurate math used per memory offset, and/or converting floats to double precision. The emulator uses openCL for GS, and likely other components as well.

Emulator Configuration[edit | edit source]

The emulator can be configured through 4 files.

Files[edit | edit source]

config-emu-ps4.txt - Stores paths, basic video/audio settings in official packages. But unofficially can be also used for advanced settings for global effect in multi disc .pkg with all commands originally used in cli.conf file.
XXXX-YYYYY_cli.conf - Stores per disc advanced settings. GS, VU, EE, IOP, FPU, COP2 emulation settings, are here. Also hacks, and hooks.
XXXX-YYYYY_config.lua - Used for per disc advanced scripts. Patching EE/IOP memory, Conditional hooks.
disc-swap-cli.conf - Stores info of multi disc games.

Commands[edit | edit source]

The rest of the CLI and LUA commands can all be found inside of any emulator's Eboot.bin file.

config-emu-ps4.txt commands[edit | edit source]

Command	Values	Notes	Usage
	Misc
--config-local-lua			--config-local-lua=""
--lopnor-config	0,1	Enables limited PS3's PS2 config support	--lopnor-config=1
--load-tooling-lua			--load-tooling-lua=0
--max-console-spam
--path-snaps	dir/folder	Path to savestates folder	--path-snaps="/tmp/snapshots"
--path-recordings	dir/folder		--path-recordings="/tmp/recordings"
--path-memcards	dir/folder
--path-vmc	dir/folder		--path-vmc="/tmp/vmc"
--emulog-file	0, 1	Creates a log file with information that is rarely useful	--emulog-file=1
--path-emulog	dir/folder	Sets the directory of the emulog file. Requires --emulog-file=1 command	--path-emulog="/tmp/recordings"
--path-manual	dir/folder
--path-patches	dir/folder	Path to patches folder	--path-patches="/app0/patches"
--path-trophydata	dir/folder		--path-trophydata="/app0/trophy_data"
--path-featuredata	dir/folder	Path to folder with XXXX-YYYYY_features.lua file	--path-featuredata="/app0/feature_data"
--path-postproc	dir/folder	Post-processing (shaders?)
--path-toolingscript	dir/folder		--path-toolingscript="/app0/patches"
--snapshot-name
--snapshot-datafile
--snapshot-restore
--snapshot-save	frameId(?)
--snapshot-mcd-files
--snapshot-repeat	repeat_count
--snapshot-modulo
--host-keyboard	slot [0-7]		--host-keyboard=4
--host-window-scale	scale/float		--host-window-scale=0.5
--host-window-pos	x,y
--host-display-mode	normal,full,4:3,16:9	Set display mode	--host-display-mode=full
--host-graph	fps	Debug option that requires an unleaked debug ps2 bios	--host-graph=fps
--host-osd	verbose, minimal		--host-osd=0
--host-vsync	0, 1	Enable or disable vsync	--host-vsync=1
--host-trophy-support
--rtc-epoch	unix_time (seconds since epoch)		--rtc-epoch=1523776362
--framelimiter	0, 1	Enable or disable Frame limiting	--framelimiter=1
--framelimit-fps	FPS/float	framelimiter	--framelimit-fps=0.8
--framelimit-scalar	scalar/float	Scalar must be between 0.1 and 5.0	--framelimit-scalar=3.2
--framelimit-mode	slowest,slower,slow,normal,fast,fastest,turbo	A Standalone framelimiter	--framelimit-mode=fast
--ps2-lang	system	Sets language. Might seem like a useless command, but a tiny number of games refuse to boot without a selected language.	--ps2-lang=system
--ps2-title-id	XXXX-YYYYY Example: (SLUS-21515)	Sets title-id for patches. Requires the game's region code as value	--ps2-title-id=SLES-50366
--gs-uprender	none, 2x2	Internal resolution upscaler.	--gs-uprender=2x2
--gs-upscale	none, gpu, edgesmooth, motionvec, point, motionvector, smooth, motion	upscaling type	--gs-upscale=EdgeSmooth
	CDVD
--max-disc-num	1-5	numbers of discs in package (maximum=5)	--max-disc-num=1
--boot-disc-id	1-5	sets boot disc for multi-disc pkg	--boot-disc-id=0
--switch-disc-reset	1 = Enables resetting the game upon disc swap, 0 = Disables resetting the game upon disc swap	0 Can be used to prevent resetting the game when switching multiple discs. Useful for games like Samurai warriors 2 that include an import data feature. Sadly this command isn't supported by many emulators, but jakv2 is confirmed to support it	--switch-disc-reset=1
--cdvd-sector-read-cycles	0.1 = Fastest, 80000 = Slowest	Set DVD reading speed. Higher values are slower, lower values are faster. Kinetica uses 40000, Psychonauts 4000, Red dead revolver 5000, Rise of kasai 31000. Some games require moderate speed, too slow or too fast could cause audio problems.	--cdvd-sector-read-cycles=40000
--cdvd-sector-seek-cycles	0.1 = Fastest, 80000 = Slowest	Set the speed at which the emulated CDVD spins. Higher values are slower, lower values are faster. Fixes boot-up sometimes. More info here [1]. \|\| --cdvd-sector-seek-cycles=1
--verbose-cdvd-reads	0, 1	Might improve disc reading if set to 1	--verbose-cdvd-reads=0
	Audio
--host-audio-latency	msec/float	Audio latency must be between 0.010 and 4.0	--host-audio-latency=1.5
--path-audio-images	dir/folder
--record-audio
--record-audio-img
--record-audio-image
--record-audio-ext
--host-audio	1,0,on,off,mono		--host-audio=1
--mute-audio	all,none,main,bgm		--mute-audio=all
--mute-streaming-audio	all,none,main,bgm		--mute-streaming-audio=all
	Controllers
--ds4-deadzone-adjust
--ds4-diagonal-adjust
--host-pad-loses-focus			--host-pad-loses-focus=1
--host-gamepads	0, 1		--host-gamepads=1
--pad-record	0, 1	Enables logging pad info in emulog
--pad-analog-to-digital	0, 1	Eternel ring emu uses the value 0	--pad-analog-to-digital=0
--mtap1	Disabled, Always, ByHost	Multitap switch. The values are correct but the multitap only works in certain games.	--mtap1=always
--mtap2	Disabled, Always, ByHost	Multitap switch. Some games require multitap to be selected only on second port (1, 2-a, 2-b, 2-c layout). To achieve that, we need to disable the first mtap. In some cases, the emulator can be flawed in how it handles multi-tap when it involves "--mtap2". All functions for 2A, 2B, 2C, 2D must be redirected to ports on multi-tap 1 by using memory patches.	--mtap2=always

XXXX-YYYYY_cli.conf commands[edit | edit source]

These commands work in config-emu-ps4.txt, but the official way to use them is through the CLI file (It is also needed for multi-disc packages). Additionally, some commands are still not discovered, and known commands might be missing their values.

All commands are pre-made. Creating new CLI commands is impossible.
The values of the commands are also pre-defined by Sony and/or have a set of possible values or ranges.
Some CLI commands have no effect, as they were added to the eboot.bin without being programmed. Some useful commands were removed or added in or from different emu revisions, or their effects were changed. In some emulators, CLI configurations can be found in the ram at SceLibcHeap[0]-3-881004000.

EmotionEngine (MIPS-IV)[edit | edit source]

EE[edit | edit source]

Commands for the emulated Emotion Engine. These commands may improve performance, or allow for better sync.

Command	Values	Notes	Usage
	Speedhacks / Desync Fixes
--ee-cycle-scalar	Accelerate EE cycles: (0.99 => 0.1) Decelerate EE cycles: (1.1 => 5.0)	Accelerating can help improve EE-DMA sync at the cost of performance, whereas decelerating can help ensure EE is in sync with VU0-VU1 while improving performance (too much deceleration can cause stuttery fmvs.) The default value is 1.0	--ee-cycle-scalar=1.0
--ee-context-switch-cycles	Accelerate cycles (360 => 0) Decelerate cycles (361 => ∞ )	Its effects are mysterious, but likely affect COP0. Does not work on Jak emulators. Default value is 360, and its type is 4 bytes. Seems to be useful for Bee Movie and Metal Gear Solid 3.	--ee-context-switch-cycles=2700?
--ee-hook	AdvanceClock FastForwardClock Mfifodrain	Set a function to be applied every time the PC register reaches the selected offset in the EE memory. FastForwardClock stalls the EE for a non-changeable number of cycles, while AdvanceClock stalls the EE for an allocated number of cycles to push other processing units to align with the EE's speed, and temporarily allocate higher cpu power for them, which is helpful when the vu1 requires higher juice for its performance, and when the vu0 and dma channels run slower than the ee. Mfifodrain is still unknown. For more examples	--ee-hook=0x0025A9F2,AdvanceClock,,500 --ee-hook=0x0019F0AD,FastForwardClock
	Game fixes
--ee-jit-pagefault-threshold	0-254	Ignore JIT pagefaults, usually caused by data placed right after code. JIT try to recompile it, and obviously hit some bad opcodes. This command reduces the occurrence of crashes the higher it is.	--ee-jit-pagefault-threshold=40
--ee-block-validation	PageProt, PageProtection, Hash, Full, none	way of validating that block been modified, and require recompilation. [Some info about PageProt way]	--ee-block-validation=None
--ee-shorthash-len	inst_count/integer	Length of shorthash in instruction/opcode count. Require --ee-block-validation=Hash
--ee-const-folding	None,Gpr,Fpu,All	EE constant folding. "All" seems to be the default option.	--ee-const-folding=none
--ee-ignore-segfault	none, read, write, readwrite	Ignore segmentation fault. Ignore rw from/to unmapped memory, known in pcsx2 as TLB miss (load.store)	--ee-ignore-segfault=readwrite
--ee-native-function	memset, memcpy, strlen, strcmp, strcasecmp, litodp, dptoli, floatdidf, fptoui, fptodp, dptofp, fabs, fabsf, ieee754_atan2f, ieee754_asinf, ieee754_acosf, ieee754_sinf, ieee754_cosf, ieee754_sqrtf, asinf, acosf, sinf, cosf, sqrtf.	Hook mips function with HLE x64 native version. Much faster, but tricky to keep correct timings on ps2 VM.	--ee-native-function=memcpy,0x11e328
	Other
--ee-jit-disasm	0 or 1 for mips and 2 for x86	Emotion engine Just in Time disassembler mode (Likely a debug log option)	--ee-jit-disasm=1
--ee-ignore-break	0, 1	Turns a BREAK instruction into a NOP Instruction.
--ee-break-as-nop	0, 1	Turns a BREAK instruction into a NOP Instruction.	--ee-break-as-nop=1
--ee-jit-opt-debug	0, 1
--ee-pc-coherency	0, 1	Flush PC register to memory on every mips opcode. Result in more accurate EE PC reg reads.
--ee-insn-flush-pc	0, 1	Flush PC register to memory on every mips opcode. Result in more accurate EE PC reg reads.
--ee-inst-marking	0,1?
--ee-insn-marking	0,1?
--ee-kernel-hle	0, 1	High-level emulation kernel. Apply HLE patches (used in mast1c0re part 2 Vulnerability 2). Apply EE kernel patches which run previously prepared x64 code instead of recompiling real code part.
--ee-injection-kernel	0, 1	Just like --ee-kernel-hle, except using a different name.
--ee-injection-title	0, 1	Apply HLE patches (used in mast1c0re part 2 Vulnerability 2). Apply per title patches which run previously prepared x64 code instead of recompiling real code part.
--ee-validate-kernel	0, 1
--ee-regalloc-scalar	0,none,ReadOnly,WriteOnly,RW	register allocation setting
--ee-regalloc-simd	readwrite, writeonly, readonly	register allocation setting
--ee-regalloc-preserve-scalar	LoadOnly, LO, StoreOnly, SO, LoadStore, LS	EE JIT Scalar/Int Regalloc Mode	--ee-regalloc-preserve-scalar=LoadStore
--ee-regalloc-preserve-simd	ReadOnly, RO, WriteOnly WO, RW	EE JIT SIMD/XMM Regalloc Mode	--ee-regalloc-preserve-simd=RW
--ee-static-block-links	options Type,Type,... [Branch,Branches,JAL,COP2,All]		--ee-static-block-links=JAL,COP2
--vtune-ee
--ee-live32	0,1?
--ee-cache-breaks-block	0,1	End recompiler block on r5900 cache opcode.
--ee-evt-check-full	0, 1	Perform more accurate EE event check
--ee-peephole	0, 1?
--ee-load-rewrites	0,1?
--ee-store-rewrites	0,1?
--ee-precompile-trace
--ee-penalize-short-blocks	0, 1	Add cycles to short recompiled blocks?
--ee-mem-check-eob		EE memory check end of block
--ee-insn-callmark
--ee-inline-limit-full	insn_count/integer
--ee-inline-limit-partial
--ee-stlf-cycle-threshold	?	?
--detect-idle-ee	0, 1		--detect-idle-ee=1

FPU[edit | edit source]

The FPU is a fast single-precision unit that typically serves the EE by calculating in-game physics. It mostly controls the accuracy of the movement of in-game objects, or the game's gravity as a whole. In some cases, it is best to use COP2 commands with the FPU's to ensure the accuracy of the game's geometrical calculations.

Command	Values	Notes	Usage
	Game fixes
--fpu-no-clamping	1 = Extra + preserve sign 0 = Extra	Changes the clamping behavior of the FPU. Might fix freezing issues, or misplaced characters/items (Inaccuracies with in-game physics)	--fpu-no-clamping=0
--fpu-custom-min-max	0, 1	Custom Max/Mini logic for denormals. Enabled by default. Disabling it might break some games	--fpu-custom-min-max=0
--fpu-accurate-range	start,end offset (0x0 - 0x1FFFFFF)	Accurate Mul/Div/Add/Sub Math instructions for the FPU by using software floats rather than hardware floats. Can be used for full EE/FPU Mathematical accuracy in the specified range.	--fpu-accurate-range=0x1acce0,0x2acce0
--fpu-no-clamp-range	start,end offset (0x0 - 0x1FFFFFF)	Per-range clamping for the FPU in the selected memory range.	--fpu-no-clamp-range=0x1acce0,0x2acce0
--fpu-accurate-muldiv	0 = Disabled 1 = Enabled	Allows the FPU to accurately Divide/Multiply by 0 for all offsets by using software floats rather than hardware floats. (Extremely slow)	--fpu-accurate-muldiv=1
--fpu-accurate-addsub	0 = Disabled 1 = Enabled	Allows the FPU to accurately Add/Subtract for all offsets by using software floats rather than hardware floats. (Extremely slow)	--fpu-accurate-addsub=1
--fpu-accurate-muldiv-range	start,end offset (0x0 - 0x1FFFFFF)	Allows the FPU to accurately Divide/Multiply by 0 in the specified ee memory range by using software floats rather than hardware floats.	--fpu-accurate-muldiv-range=0x1acce0,0x2acce0
--fpu-accurate-addsub-range	start,end offset (0x0 - 0x1FFFFFF)	Allows the FPU to accurately Add/Subtract in the specified ee memory range by using software floats rather than hardware floats.	--fpu-accurate-addsub-range=0x1acce0,0x2acce0
	Speedhacks
--fpu-rsqrt-fast-estimate	0, 1	Decreases RSQRT's accuracy. It is enabled by default. Disabling it is required for the full accuracy of the FPU.	--fpu-rsqrt-fast-estimate=1
--fpu-accurate-mul-fast	0, 1	A command that prevents muldiv commands from slowing the emulation down.	--fpu-accurate-mul-fast=1
	Other
--fpu-custom-fused-madd	0, 1	Custom FMA (fused multiply-add). Disabled by default.	--fpu-custom-fused-madd=0
--fpu-to-double	0, 1	Converts floats to doubles (Accurate)	--fpu-to-double=1
--fpu-clamp-operands	0, 1	Affects the fpu's clamping behavior	--fpu-clamp-operands=1
--fpu-clamp-results	0, 1	Affects the fpu's clamping behavior	--fpu-clamp-results=1

COP2[edit | edit source]

VU0 Macro-mode. These commands may assist the FPU further.

Command	Values	Notes	Usage
	Speedhacks
--cop2-opt-flags	0, 1 ,2	Optimize flags upon recompilation (1 is safe, 2 update sticky, and mac flag on every status flag update) setting it to 0 can in some cases improve FPU accuracy. More Info	--cop2-opt-flags=1
--cop2-opt-vf00	0, 1, 2	Optimization for the vf00 register.	--cop2-opt-vf00=1
--cop2-const-prop	0, 1	Disables or enables constant propagation. Can Be Used as speedhack for COP2 hungry games when set to 1 More info	--cop2-const-prop=1
--cop2-di-bits	0, 1	0 to skip setting invalid, and div by Zero flags in status register, and therefore improve performance. Can be used as speedhack as it skip costly calculations.	--cop2-di-bits=0
	Game fixes
--cop2-no-clamping	1 = Extra + preserve sign 0 = Extra	Changes the clamping behavior of the COP2. The default emulator's behavior is none of the included values and cannot be set by CLI commands.	--cop2-no-clamping=0
--cop2-accurate-range	start,end offset (0x0 - 0x1FFFFFF)	Accurate Mul/Div/Add/Sub math instructions for the COP2 by using software floats rather than hardware floats. Can be used for full COP2 mathematical accuracy in the specified range.	--cop2-accurate-range=0x123456,0x134567
--cop2-no-clamp-range	start,end offset (0x0 - 0x1FFFFFF)	Per-range clamping for COP2.	--cop2-no-clamp-range=0x123456,0x134567
--cop2-accurate-mul-range	start,end offset (0x0 - 0x1FFFFFF)	Accurate multiplication instructions for the COP2 in the specified range by using software floats rather than hardware floats	--cop2-accurate-mul-range=0x123456,0x134567
--cop2-accurate-mul	1 = Enabled 0 = Disabled	Allows the COP2 to accurately multiply for all offsets by using software floats rather than hardware floats. (Extremely slow)	--cop2-accurate-mul=1
--cop2-accurate-addsub	1 = Enabled 0 = Disabled	Allows the COP2 to accurately Add/Subtract for all offsets by using software floats rather than hardware floats. (Extremely slow)	--cop2-accurate-addsub=1
--cop2-accurate-addsub-range	start,end offset (0x0 - 0x1FFFFFF)	Allows the COP2 to accurately Add/Sub in the specified ee memory range by using software floats rather than hardware floats.	--cop2-accurate-addsub-range=0x123456,0x134567
	Other
--cop2-regalloc	0, 1 ?	PCSX2 seems to have this enabled by default. Uknown function, might be a speechack.
--cop2-inst-q	0, 1	instant Q, no stalling on VWAITQ, or instances of Q. Crashes some games when enabled.
--cop2-inst-p	0, 1	instant P, no stalling on VWAITP, or instances of P.
--cop2-use-rcp	0, 1	Enables SSE RCP. Disabled by default
--cop2-use-rsqrt	0, 1	Enables SSE RSQRT	--cop2-use-rsqrt=0
--cop2-clamp-operands	0, 1	Affects the COP2's clamping behavior	--cop2-clamp-operands=1
--cop2-clamp-results	0, 1	Affects the COP2's clamping behavior	--cop2-clamp-results=1

Vector Units (VU)[edit | edit source]

VU[edit | edit source]

Custom DSPs used to process vertex data, physics calculations, and other related tasks. Settings found here affect VU1, VU0, and COP2. Most of these commands fix broken or missing geometry along with black screens.

Command	Values	Notes	Usage
	Graphical fixes
--vu-xgkick-delay	Limit is between (0 => 31)	Delay xgkick instruction execution. PCSX2 uses 6 cycles, PS3 uses 2-8 cycles depending on the game. Can be used to repair missing graphics with 0 being the most compatible. Useful for games with GIF issues	--vu-xgkick-delay=8
--vu-custom-min-max	0, 1	Custom Max/Mini logic for denormals. Disabled on pcsx2 by default but enabled by default on a couple of emus such as jakv2. Disabling it could potentially restore missing graphics by speeding up the vector units.	--vu-custom-min-max=0
	Game fixes
--vu-hack-triace	0, 1	A hack designed specifically for games developed by Tri Ace. Corrects the VU's addi calculation. Without it, the result will be one bit off, which is enough to break the game's decryption algo.	--vu-hack-triace=1
--vu-branch-hazard	0, 1	Disabling it managed to prevent "Batman - Rise of Sin Tzu" from crashing	--vu-branch-hazard=0
--vu-evil-branches	0, 1	Take in count branch in delay slot, or not. More Info
--vu-to-double	0, 1	Converts floats to double. Enabling it is the accurate option.	--vu-to-double=1
--vu-custom-fused-madd	0, 1	Custom FMA (fused multiply-add). Disabled by default	--vu-custom-fused-madd=1
	Speedhacks
--vu-opt-sf-check	0, 1	Updates status flags only on blocks which will read them. Known in pcsx2 as mVU flag hack. Won't work with most emulators, but will work on Arc Twilight of the Spirits™	--vu-opt-sf-check=1
--vu-opt-jr-caching	0, 1	Optimize Jump Register caching. (vi15). Won't work with most emulators but will work on Arc Twilight of the Spirits™	--vu-opt-jr-caching=1
	Other
--vu-d-bit	0, 1	Debug break. Halts the VU and sends an interrupt to the EE.	--vu-d-bit=0
--vu-t-bit	0, 1	Debug halt. Acts similarly to D-bit	--vu-t-bit=0
--vu-inst-mflag	0, 1	?	--vu-inst-mflag=1
--vu-inst-cflag	0, 1	?	--vu-inst-cflag=1
--vtune-vu	?	?
--vu-jit-disasm	0, 1, 2	?	--vu-jit-disasm=1
--vu-range-merge	vu_inst_cnt	?

VU1[edit | edit source]

VU1 is the GS’s alternate processing unit. Commands here typically improve performance, prevent crashes, and fix SPS; graphical glitches.

Command	Values	Notes	Usage
	Speedhacks
--vu1-mpg-cycles	0 - 400000	Set initial speed for VU1 Micro-programs. 100 is the default value. If VU1 requirements were a bottleneck, increasing it will result in better performance while decreasing it will result in the opposite. Increasing it can be beneficial for games that are MTVU sensitive.	--vu1-mpg-cycles=1000
--vu1-di-bits	0, 1	0 Skips setting invalid, and Divides by zero flags in status register. Can be used as a speedhack as it can skip costly calculations. But at the same time, it can cause issues such as broken geometry.	--vu1-di-bits=0
--vu1-const-prop	0, 1	Enabled by default. 0 will disable it and cause performance issues.More info	--vu1-const-prop=1
--vu1-opt-flags	0, 1, 2	Optimize flags upon recompilation (1 is safe, 2 update sticky, and mac flag on every status flag update) More Info	--vu1-opt-flags=0
--vu1-opt-vf00	0, 1, 2	Optimization for the vf00 register.	--vu1-opt-vf00=2
--vu1-jr-cache-policy	newprog, sameprog, auto, new, same	PCSX2 uses newprog as default setting. Setting it into newprog has been proven to fix some crashes Info	--vu1-jr-cache-policy=newprog
--vu1-jalr-cache-policy	newprog, sameprog, auto, new, same	PCSX2 uses newprog as default setting. Setting it into newprog has been proven to fix some crashes Info	--vu1-jalr-cache-policy=newprog
	Game fixes / Graphical fixes
--vu1	jit-sync	Selector between IR/JIT and it modes. Jit-sync works similarly to disabling MTVU. jit, trans, and jit-async are unimplemented functions that do not change anything.	--vu1=jit-sync
--vu1-no-clamping	0,1	Changes the clamping behavior of the VU1. Setting specific to ps4 emulators, unimplemented in pcsx2. The default emulator's behavior cannot be set by CLI commands.	--vu1-no-clamping=0
--vu1-clamp-range	vu1 memory offset start,end (0x0 - 0x7FF)	Values must not exceed 0x7FF
--vu1-accurate-addsub-range	vu1 memory offset start,end (0x0 - 0x7FF)	Allows the VU1 to accurately add/subtract in the specified ee memory range by using software floats rather than hardware floats.	--vu1-accurate-addsub-range=0x0000,0x0600
--vu1-mul0fix-range	vu1 memory offset start,end (0x0 - 0x7FF)	Allows the VU1 to accurately multiply by 0 in the specified ee memory range by using software floats rather than hardware floats.	--vu1-mul0fix-range=0x123,0x123
--vu1-injection	0, 1	unknown	--vu1-injection=1
--vu1-native-patch	0, 1	Use native patches from recompiler, not compatible with jak emus. Sony uses it for their official release of Primal	--vu1-native-patch=1
	Other
--vu1-inst-p	0, 1	instant P, no stalling on WAITP, or instances of P	--vu1-inst-p=1
--vu1-use-rcp	0, 1	Use SSE/AVX RCP. Speedhack. Likely used only in EFU pipeline, due to rare use, its really not worth to enable it. Speed improvement will be marginally/unnoticeable. Disabled by default
--vu1-use-rsqrt	0, 1	Use SSE/AVX rsqrt instead of doing sqrt and then div. Speedhack, rather safe to use on VU1.
--vu1-clamp-operands	0, 1	Clamp operands before mathematical operation.	--vu1-clamp-operands=1
--vu1-clamp-results	0, 1	Clamp result after mathematical operation.	--vu1-clamp-results=1
--vu1-inst-q	0, 1	instant Q, no stalling on WAITQ, or instances of Q.	--vu1-inst-q=1
--assert-path1-ad	0, 1	Path 1 is how the GIF takes data from VU1 via XGKICK instruction. It's unknown what this command does but it's related to VU1, and helps prevent crashes in VU1 sensitive games when enabled.	--assert-path1-ad=1

VU0[edit | edit source]

VU0 is the Emotion Engine’s alternate processing unit. It is sometimes referred to as "micro-mode"

Command	Values	Notes	Usage
	Speedhacks
--vu0-mpg-cycles	0 - 400000	Set initial cycle speed for VU0 Micro-programs. 100 is the default value.	--vu0-mpg-cycles=1000
--vu0-di-bits	0, 1	0 to skip setting invalid, and Div by zero flags in status register. Can be used as speedhack as it skips costly calculations, but at the same time can cause issues like broken geometry, and weird physics behavior. Depending per game.	--vu0-di-bits=0
--vu0-const-prop	0, 1	Constant propagation, can Be used as speedhack for VU0 hungry games when set to 1 More info	--vu0-const-prop=1
--vu0-opt-vf00	0, 1, 2	Optimization for the vf00 register.	--vu0-opt-vf00=1
--vu0-opt-flags	0, 1, 2	Optimize flags upon recompilation (1 is safe, 2 update sticky, and mac flag on every status flag update) More Info	--vu0-opt-flags=1
--vu0-jr-cache-policy	newprog, sameprog, auto, new, same	PCSX2 use newprog as default setting Info	--vu0-jr-cache-policy=sameprog
--vu0-jalr-cache-policy	newprog, sameprog, auto, new, same	PCSX2 use newprog as default setting Info	--vu0-jalr-cache-policy=sameprog
	Game fixes
--vu0-clamp-range	start, end offset (0x0 - 0x1FF)	per range clamping for VU0	--vu0-clamp-range=0x100,0x120
--vu0-no-clamping	0,1	Changes the clamping behavior of the VU0. Setting specific to ps4 emulators, unimplemented in pcsx2. The default emulator's behavior cannot be set by CLI commands.	--vu0-no-clamping=0
--vu0-accurate-addsub-range	offset (0x0 - 0x1FF)	Allows the VU0 to accurately Add/Subtract in the specified ee memory range by using software floats rather than hardware floats.
--vu0-mul0fix-range	vu0 memory offset start,end (0x0 - 0x1FF)	Allows the VU0 to accurately Multiply by 0 in the specified ee memory range by using software floats rather than hardware floats
	Other
--vu0-injection	0, 1	Unknown usage.	--vu0-injection=1
--vu0-inst-q	0, 1	instant Q, no stalling on WAITQ, or instances of Q	--vu0-inst-q=1
--vu0-inst-p	0, 1	instant P, no stalling on WAITP, or instances of P	--vu0-inst-p=1
--vu0-use-rcp	0, 1	Use SSE/AVX RCP. Speedhack. Not sure why it is even available for VU0. Disabled by default	--vu0-use-rcp=1
--vu0-use-rsqrt	0, 1	Use SSE/AVX rsqrt instead of doing sqrt and then div. Speedhack, rather unsafe to use on VU0.	--vu0-use-rsqrt=1
--vu0-clamp-operands	0, 1	Clamp operands before mathematical operation.	--vu0-clamp-operands=1
--vu0-clamp-results	0, 1	Clamp result after mathematical operation.	--vu0-clamp-results=1

DMA Channels[edit | edit source]

VIF[edit | edit source]

The VIF decompresses vector data, uploads microprograms to the VUs, and sends graphical data to the GIF. Its commands
are often used to fix freezing.

Command	Values	Notes	Usage
	VIF	Game fixes
--vif-ignore-invalid-cmd	0, 1	Ignore invalid vif commands. In some cases, setting it to 1 can fix games that freeze while showing the same frame.	--vif-ignore-invalid-cmd=1
--vif-thread-chunk-size	0, 1024	Slows down both VIFS the lower it is, and speeds them up the higher it is. 1024 is the limit, with 112 being the default value.	--vif-thread-chunk-size=100
--detect-idle-vif	0, 1	Enabled by default. Unknown function	--detect-idle-vif=0
	VIF1	Game fixes
--vif1-ignore-cmd-ints	0, 1	Set to 1 to ignore command interrupt bit. (info , explanation of int bit is right before command list). Can in some cases fix games that freeze while showing the same frame if set to 1. Games likes "Men in Black II - Alien Escape" and "Test Drive Unlimited" Will always need it.	--vif1-ignore-cmd-ints=1
--vif1-instant-xfer	1 = Instant VIF1 0 = Delayed VIF1	Changes VIF1 timing. 0 is the accurate option. It can be used to fix graphical glitches or to potentially prevent games from freezing.	--vif1-instant-xfer=0

SIF[edit | edit source]

The SIF is how the EE and IOP communicate with each other. SIF has some mailbox hardware registers that the CPUs can use to pass values to each other, which happens during SIF initialization. However, once both sides have booted, they use the SIF0 (IOP->EE) and SIF1 (EE->IOP) DMA channels to communicate. Despite common belief, these commands have no effect on performance, and are rarely ever useful.

Command	Values	Notes	Usage
		SIF1 (IOP)
--iop-sif1-cycle-scalar	Accelerate SIF cycles: (0.99 => 0.1) Decelerate SIF cycles: (1.1 => ∞ )	Controls the speed at which the IOP receives from the EE	--iop-sif1-cycle-scalar=0.1
--ee-sif1-cycle-scalar	Accelerate SIF cycles: (0.99 => 0.1) Decelerate SIF cycles: (1.1 => ∞ )	Controls the speed at which the EE sends to the IOP	--ee-sif1-cycle-scalar=0.1
		SIF0 (EE)
--iop-sif0-cycle-scalar	Accelerate SIF cycles: (0.99 => 0.1) Decelerate SIF cycles: (1.1 => ∞ )	Controls the speed at which the IOP sends to the EE	--iop-sif0-cycle-scalar=0.1
--ee-sif0-cycle-scalar	Accelerate SIF cycles: (0.99 => 0.1) Decelerate SIF cycles: (1.1 => ∞ )	Controls the speed at which the EE receives from the IOP	--ee-sif0-cycle-scalar=0.1

GS[edit | edit source]

"GS" stands for Graphics Synthesizer. It's the PlayStation®2's co-processor that's responsible for rendering the graphics (but is also used by some games for additional calculations and other purposes)

Command	Values	Notes	Usage
	Speedhacks
--gs-optimize-30fps	0, 1	Speedhack for GS hungry games.	--gs-optimize-30fps=1
--gs-adaptive-frameskip	0, 1	Speedhack. Skips frames when the gs demands more resources than there are available. doesn't work on all emulators. It does however, work on jak emulators	--gs-adaptive-frameskip=1
	Gs settings / Behaviour
--gs-use-deferred-l2h	0, 1	Delay option for L2H (local to host, GS to EE).	--gs-use-deferred-l2h=1
--gs-uprender	none,2x2	Internal resolution upscaler.	--gs-uprender=2x2
--gs-upscale	none, gpu, edgesmooth, smooth, motion, motionvec, motionvector, point	Upscaling type Selector	--gs-upscale=EdgeSmooth
--gs-kernel-cl-up	"DarkCloud2" "fantavision" "h2lpool2x2", "OptRightTri", "clutmerge2x2", "mipmap2x2", "up2x2simple", "up2x2skipinterp", "up2x2tc", "up2x2", default	Kernel Variant Color lookup Upscaler (?), mipmap and clutmerge and h2l will have to be enabled first before using their options	--gs-kernel-cl-up="clutmerge2x2"
--gs-override-small-tri-area	0, 1	Small triangle rejection. Could potentially restore missing text in some games.	--gs-override-small-tri-area=1
--gs-dirty-page-policy	0, 1		--gs-dirty-page-policy=1
--gs-ignore-dirty-page-border	0, 1	?	--gs-ignore-dirty-page-border=1
--gs-ignore-rect-correction	0, 1	Setting it to 1 is known to fix graphical glitches in distant locations.	--gs-ignore-rect-correction=1
--gs-opt-frbuff-switch	0, 1		--gs-opt-frbuff-switch=0
--gs-kernel-cl	h2lpool, clutmerge, mipmap, DarkCloud2, fantavision, Mipmap and clutmerge and h2l will have to be enabled first before using their options	Kernel Variant Color lookup(?). Options included here can be upscaling if --gs-kernel-cl-up were to be used along with it	--gs-kernel-cl="clutmerge"
--force-frame-blend	0, 1	Enables blend (Deinterlacing?). Should be used to fix games with shaking screens.	--force-frame-blend=1
--force-pal-60hz	0, 1	Enables 60hz PAL mode.	--force-pal-60hz=1
--gs-use-clut-merge	0, 1	Color lookup table(?). It could possibly solve graphical issues or improve the quality of the colors.	--gs-use-clut-merge=1
--gs-use-mipmap	0, 1	Enables mipmapping support. Can be used to fix graphics.	--gs-use-mipmap=1
--gs-progressive	0, 1	Enables progressive scan. It's used to fix graphical glitches/double screen issues.
--gs-vert-precision	8, 16	3D rendering vertex precision. The emu expects the values of 8 or 16, any other values are not permitted.	--gs-vert-precision=8
--gs-force-bilinear	0, 1	Forces bilinear filtering, can fix ghosting problems in some cases. Not recommended for games that use 2D images, as it could possibly break games that rely on nearest filtering.	--gs-force-bilinear=1
--gs-skip-dirty-flush-on-mipmap	0, 1	Skip flushing textures marked as dirty from cache when enabled. It does, however, require mipmap to be enabled first.	--gs-skip-dirty-flush-on-mipmap=1
--gs-packed15-fmv-opt	0, 1		--gs-packed15-fmv-opt=1
--gs-fieldswap-delay	0, 254	Wait longer than usual to change field. Reduces sharpness. (Trilinear filtering??)
--gs-uv-shift-pointsampling	0, 1	Can be used on games like manhunt that have issues with UV light rendering	--gs-uv-shift-pointsampling=1
--gs-render-tile-threshold	0, 3000000		--gs-render-tile-threshold=300000
--threaded-gs	0, 1	Multi-threaded-gs ?	--threaded-gs=1
--gs-aspect-ratio	aspect/float (default=0.81)		--gs-aspect-ratio=0.65
--gs-frontend-opt-mode	0, 1, 2	?	--gs-frontend-opt-mode=1
--gs-motion-factor	25, 50		--gs-motion-factor=25
--gs-scanout-delay	0, 200		--gs-scanout-delay=200
--gs-flush-ad-xyz	always, safe, safeZwrite, off, 0	Force a primitive flush when a framebuffer is also an input texture. This fixes some processing effects, but it can sometimes be heavy on the GS in terms of performance. GTA: SA, and Jak 3 use this command.	--gs-flush-ad-xyz=safe
--gs-check-trans-rejection	0, 1	Check transfer rejection ?	--gs-check-trans-rejection=1
--gs-check-trans-rejection68	0, 1		--gs-check-trans-rejection68=1
--l2h-2d-params	TRXREG,BITBLTBUF,height		--l2h-2d-params=0x0000000800000001,0x000000003a0a2300,512,2
--gs-h2l-accurate-hash	0, 1		--gs-h2l-accurate-hash=1
--gs-h2l-list-opt	0, 1		--gs-h2l-list-opt=1
	Aspect ratio
--gs-scanout-offsetx	relative offset/ignored	A zoom in setting in the x direction	--gs-scanout-offsetx=27
--gs-scanout-offsety	relative offset/ignored	A zoom in setting in the y direction	--gs-scanout-offsety=27
--safe-area-min	area/float (range 0.9 to 1.0) any other values outside of that range will be rejected by the emulator	An overscan setting	--safe-area-min=0.9
	Other
--framelimit-mode	slowest,slower,slow,normal,fast,fastest,turbo	Standalone Framelimiter	--framelimit-mode=fast
--gs-hdr-support	0, 1?	?

IOP[edit | edit source]

The emulated I/O Processor (IOP) settings. Commands here are rarely useful, as very few games will require them. The IOP controls the emulated DEV9, SPU2, USB, Memory cards, CDVD, Firewire, along with other input/output devices

Command	Values	Notes	Usage
	Game fixes
--iop-cycle-scalar	Accelerate IOP cycles: (0.99 => 0.1) Decelerate IOP cycles: (1.1 => 5.0)	Not a Speedhack. Accelerating can improve DVD reading speed	--iop-cycle-scalar=1.0
--iop-const-folding	None,Gpr,All	IOP constant folding More info	--iop-const-folding=All
--iop-tight-slice-count	0, 2000	Seems to slow down the iop the higher the value, Can be used in games such as the godfather or gran turismo 4 to solve stuttering fmvs due to very fast iop cycles	--iop-tight-slice-count=12
--iop-hook	AdvanceClock, FastForwardClock	IOP native hook, Sony uses it on their official release of Red dead revolver	--iop-hook=0x0086ac,FastForwardClock
--iop-block-validation	IsC, ShortHash, Hash	Way of validating that block been modified, and require recompilation. Other Possible values include PageProt, None, PageProtection	--iop-block-validation=IsC
	Other
--iop-validate-kernel	0, 1
--iop-shorthash-len	inst_count/integer	Length of shorthash in instruction/opcode count. Require --iop-block-validation=ShortHash
--iop-pc-coherency	0, 1
--iop-inst-marking	0, 1?
--detect-idle-iop	0, 1	Enabled by default.	--detect-idle-iop=0
--iop-jit-disasm
--iop-evt-check-full	0, 1 ?

Misc[edit | edit source]

Command	Values	Notes	Usage
--idec-cycles-per-qwc	int/multiplier	Multiply how many cycles IDEC command take per whole currently worked on QWC.	--idec-cycles-per-qwc=768
--mfifo-manual-drain	0.1/5.0	A command for changing the functionality of --ee-hook=0x0,Mfifodrain	--mfifo-manual-drain=0.30
--mfifo-chunk-drain-cycles	1/400000	A command for changing the functionality of --ee-hook=0x0,Mfifodrain	--mfifo-chunk-drain-cycles=210000
--pcr0-delta-hack	0.1 , 400000.0	Modify delta of pcr0 when reading it from MFC0. Some games rely on good performance counters accuracy (Spyro ANB cutscenes), and since emulator don't implement most events, hack it is.	--pcr0-delta-hack=1.0
--jitproc-use-aslr		Disables compiler process ASLR, useful for easier debugging, as the compiler process will be always on fixed address. Theoretically useful for mast1c0re, but to change it you need to be already in...	--jitproc-use-aslr=0
--detect-idle-intc	0, 1	Enabled by default, 0 disables it	--detect-idle-intc=0
--detect-idle-chcr	0, 1	Enabled by default, 0 disables it	--detect-idle-chcr=0
--rom	location of the bios that's inside of the fpkg	Could allow to use custom bios, though still not working	--rom="PS20220WD20050620.crack" or --rom="/roms/PS20220WD20050620.crack"
--cop2	jit, trans	?
--vu0	jit, trans	?
--r30	jit, trans	?

PCSX2's gameindex[edit | edit source]

PCSX2's commands on the PS4

Current Gameindex.yaml

PCSX2	PS4	Notes
XGKickHack	--vu-xgkick-delay=0	Limit is between (0 => 31)
VuAddSubHack	--vu-hack-triace=1	Required for every single game developed by TriAce
vuClampMode: 2	--vu1-no-clamping=0 --vu0-no-clamping=0
vuClampMode: 3	--vu1-no-clamping=1 --vu0-no-clamping=1
vu0ClampMode: 2	--vu0-no-clamping=0
vu0ClampMode: 3	--vu0-no-clamping=1
vu1ClampMode: 2	--vu1-no-clamping=0
vu1ClampMode: 3	--vu1-no-clamping=1
eeClampMode: 2	--fpu-no-clamping=0 --cop2-no-clamping=0
eeClampMode: 3	--fpu-no-clamping=1 --cop2-no-clamping=1
FpuNegDivHack FpuMulHack	--fpu-accurate-muldiv=1
cpuCLUTRender: 1	--gs-uv-shift-pointsampling=1
MTVUSpeedHack: 0	--vu1=jit-sync	Some games will also require --vu1-mpg-cycles= to be between "6000 - 19000"
mergeSprite alignSprite	--gs-kernel-cl-up="up2x2simple"	Note: works similarly but not the equivalent
cpuSpriteRenderBW: 4	--gs-opt-frbuff-switch=1	Note: works similarly but not the equivalent
mipmap	--gs-use-mipmap=1
autoFlush	--gs-flush-ad-xyz=safe	Possible values include always, safe, off, 0
VIF1StallHack	--vif1-instant-xfer=0	If that doesn't work, the lua command eeObj.SchedulerDelayEvent("vif1.dma", 0x9000) might assist.
wildArmsHack	--gs-kernel-cl-up="DarkCloud2"
deinterlace	--force-frame-blend=1

Emulators[edit | edit source]

Every emulator is programmed differently. Sometimes choosing the right emulator is the only way to fix a game. Emulators are not provided pre-installed on the ps4, they have to be unpacked from an official Sony made PS2CLASSICS pkg. This list includes the typical usage of those emulators.

Emulator name	Typical usage - Info	API Version	Similar emulators
	2018
The King of Fighters '98: Ultimate Match	The only known emulator where Mojin-ribbon is playable. Commonly known as "KOF98"	2.0
	2017
Jak and Daxter: The Precursor Legacy	Good compatibility with most ps2 games. It has a very high api version which means more LUA commands are supported. In addition, Jak emus are one of the few emus that can use the --gs-adaptive-frameskip=1 command. It is often referred to as "Jak v2"	2.2	JakX, Jak 2, Jak 3,
Art of Fighting Anthology	Similar to RECVX. It was successful in fixing "Coraline." Sometimes called "AOFA"	2.0
Resident Evil – Code: Veronica	Fixes games like Jackie chan Adventures, SpongeBob SquarePants: Creature From the Krust Krab, Pac-man World 3, Yu-Gi-Oh: Capsule monsters, SpongeBob's Atlantis SquarePantis freezing at a black/splash screen. Additionally, it fixes many games requiring OPL's mode 2. Often referred to as "RECVX"	1.7	Fatal Fury, Redfaction, AOFA.
Fatal Fury Battle Archives: Volume 2	The emulator with the closest VU0-EE sync on the PS4; setting eecyclescalar to 5 on this emulator will enable some VU0 sync demanding games to run on the PS4.
	2016
Redfaction	It is prominently used to fix games that are VU1 sensitive. It was used to fix Tony Hawk games suddenly crashing, and to fix MTVU sensitive games such as Star Wars Battlefront II.	1.6	Max payne
Forbidden Siren	The only emulator that was able fix Ice age 2 being stuck at splash screen by using it in conjunction with patches. It also fixed Gran turismo 4 running EXTREMELY slow.	0.1
King of Fighters 2000	Seemingly the emulator with closest VU0-EE sync on the PS4. Fixes graphical issues and sps in games such as Crash Twinsanity, Rayman 3, Crazy Frog Racer, and prevents Koei tecmo games from suddenly freezing when battle starts. Likely the only emulator where Batman Begins does not crash. Often referred to as "KOF2000"	1.2	Roguev1, KOF98, Okage
Destroy All Humans!	Fixed Tenchu: Fatal Shadows crashing.	0.1
Destroy All Humans! 2		0.7
Rise of the Kasai	Fixed most of the Harry potter games. Often referred to as "rotk"	0.2
	2015
War of the monsters v1	The emulator that's used in PS2CLASSICSGUI, and the best one around for GS/GIF accuracy.	0.1	Rogue v1 and v2, Arc the Lad, Star Wars Jedi Starfighter
GTA 3	Fixed the pal version of Genji: Dawn of the Samurai	0.6
Parappa 2	The only emulator that was able to boot Spyro: A Hero's Tail	0.1
Star Wars Racer Revenge	Seems to be the most similar emulator to the ps3. Useful for debugging games as it also shows useful information such as pagefault	0.4

XXXX-YYYYY_config.lua[edit | edit source]

It is the most powerful configuration on the emulator, it allows for direct patching of EE/IOP/VU memory, hooks registers, hook dma. Almost Everything can be done here.
If needed it can hook registers by using register names from alias files. Alias files (ee-cpr0-alias.lua, ee-gpr-alias.lua, ee-hwaddr.lua) are stored in lua_include folder, and can be included to config by using require ( "alias file name" ).
Examples
Known functions: Require cleanup.

ApiRequest[edit | edit source]

The most important part of the lua. The lua will crash the game if it were used without it.

Command	Usage	Notes
apiRequest	apiRequest(0.1)	apiRequest(<api version>) Different emu versions support different highest api. Calling api is mandatory. some commands require higher version. Highest known version is 2.3 api from JAK 2,3,X game emulator.

(Emulator) EmuObject[edit | edit source]

 Commands for the emulator

Command	Usage	Notes
	Object calling class
getEmuObject	local emuObj = getEmuObject()	Required for all functions using emuObj, that include: LoadConfig SaveConfig GetPad AddVsyncHook RemoveVsyncHook AddEntryPointHook RemoveEntryPointHook AddLoginHook RemoveLoginHook AddLogoutHook RemoveLogoutHook CheckEntitlement AddImageHook AddGifTagHook SwapMemCard SetFormattedCard OpenDiscTray CloseDiscTray SwitchDisc EnableImposeMenu GetDiscId GetDiscTitleId AddSectorReadHook AddMCWriteHook ShowDiscSwitchInfo GetPs4SystemLang SetPs2Lang ThrottleNorm ThrottleFast ThrottleMax AddAssertionHook SetGsTitleFix SetDeinterlace SetDisplayAspectWide SetDisplayAspectNormal ForceRefreshRate LoadFsShader SetDisplaySafeArea PadSetLightBar AddPadHook PadPressureStickRemap SetVolumes GetVolumes SetAudioRoute GetAudioRoute AddSnapshotLoadedHook RemoveSnapshotLoadedHook IsNeoMode IsToolingVerbose emuMediaPatch
	Hooks
AddVsyncHook	emuObj.AddVsyncHook(<task to be done every vsync>)	emuObj.AddVsyncHook(my_function) my_function can be anything, from simple patches, to extensive hook. Example usage can be found in SLUS-21550 features file. some games are not compatible with it and will crash upon startup.
RemoveVsyncHook	emuObj.RemoveVsyncHook(<previously added task to be removed>)	emuObj.RemoveVsyncHook(my_function)
AddEntryPointHook	emuObj.AddEntryPointHook(<task>)	Task to be done at ps2 game main elf entry point (right where game is loaded).
RemoveEntryPointHook
AddLoginHook
RemoveLoginHook
AddLogoutHook
RemoveLogoutHook
AddImageHook
AddGifTagHook
AddSectorReadHook	emuObj.AddSectorReadHook(<sector, unk, task>)	Hook to do task when disc image sector is read. Not all values are known (ex. emuObj.AddSectorReadHook(776480, 32, <task/function>) )
AddMCWriteHook	emuObj.AddMCWriteHook()
AddAssertionHook	emuObj.AddAssertionHook()
AddSnapshotLoadedHook
RemoveSnapshotLoadedHook
AddPadHook	emuObj.AddPadHook()
	Audio
SetVolumes	emuObj.SetVolumes('global', 'main', 'bgm')	Set volume, usually setting global is enough. Example: emuObj.SetVolumes(0.31, 1.0, 1.0) values, in floats 1.0 = 100%
GetVolumes	emuObj.GetVolumes()	Return current volume levels for ('global', 'main', 'bgm') in floating point values.
SetAudioRoute
GetAudioRoute
	Game loading speed
ThrottleNorm	emuObj.ThrottleNorm()	Enable default framelimiter (50/60 fps depend on region).
ThrottleFast	emuObj.ThrottleFast()	Faster than default, but exact value is unknown.
ThrottleMax	emuObj.ThrottleMax()	Disable framelimiter during loading screens.
	CDVD
OpenDiscTray
CloseDiscTray
SwitchDisc	emuObj.SwitchDisc(<disc ID>)	ID can be provided as is, or for example read from memory or register when needed.
GetDiscId	emuObj.GetDiscId()	Return DiscId in XXXX_YYY.ZZ format
GetDiscTitleId
ShowDiscSwitchInfo	emuObj.ShowDiscSwitchInfo()
	Other
EnableImposeMenu	emuObj.EnableImposeMenu(<true/false>)	EnableImposeMenu(false)
LoadConfig
SaveConfig
GetPad	emuObj.GetPad(<gamepad button by bits>)	example usage for reading input: local CheckInputs = function() local pad_bits = emuObj.GetPad() local UP = pad_bits & 0x0010 local DOWN = pad_bits & 0x0040 local LEFT = pad_bits & 0x0080 local RIGHT = pad_bits & 0x0020 local Triangle = pad_bits & 0x1000 local Cross = pad_bits & 0x4000 local Square = pad_bits & 0x8000 local Circle = pad_bits & 0x2000 local L1 = pad_bits & 0x0400 local L2 = pad_bits & 0x0100 local L3 = pad_bits & 0x0002 local R1 = pad_bits & 0x0800 local R2 = pad_bits & 0x0200 local R3 = pad_bits & 0x0004 local Select = pad_bits & 0x0001 local Start = pad_bits & 0x0008 if (L2 ~= 0) then <here function that should be done when L2 is pushed> end end emuObj.AddVsyncHook(CheckInputs) <to trigger check at every vsync>
SwapMemCard
SetFormattedCard	emuObj.SetFormattedCard(<"file name">)	emuObj.SetFormattedCard("custom_formatted.card") Allow to use custom memory card.
GetPs4SystemLang	emuObj.GetPs4SystemLang()	Return PS4 system language (in unknown format).
SetPs2Lang	emuObj.SetPs2Lang(<Lang ID>)	Set emulated PS2 language, correct Lang IDs are 0-18. In some cases, games will hang on a black screen with some other language settings (eg Japanese) - Example for usage: emuObj.SetPs2Lang(1) 0 - japanese 1 - english 2 - french 3 - spanish 4 - german 5 - italian 6 - dutch 7 - portuguese 8 - russian 9 - korean 10 - traditonal-chinese 11 - simplified-chinese 12 - finnish 13 - swedish 14 - danish 15 - norwegian 16 - polish 17 - portuguese-brazil 18 - english-uk
PadSetLightBar	emuObj.PadSetLightBar(<port, red, green, blue>)	Set DS4 light bar color. The correct port values are 0-3, correct light values are 0-255.
PadPressureStickRemap	emuObj.PadPressureStickRemap()
IsNeoMode	emuObj.IsNeoMode()	Check that PS4 run in NEO (PRO) mode. Return 1/0
IsToolingVerbose
CheckEntitlement
emuMediaPatch	emuMediaPatch(disc sector, 12/24 + offset, { original data }, { replace data })	Replace 4 bytes from loaded iso file. For unknown reason we always need to add 12 to real offset for DVD game, and 24 for CD game.
	GS related
CountFrameOnPS2	emuObj.CountFrameOnPS2()	updates FRAPS/Actual FPS reading in olympus
SetGsTitleFix	emuObj.SetGsTitleFix()	More info
SetDisplayAspectWide	emuObj.SetDisplayAspectWide()	Force display area to 16:9 (If game not support widescreen, it will be stretched).
SetDisplayAspectNormal	emuObj.SetDisplayAspectNormal()	Force display area to 4:3.
ForceRefreshRate	emuObj.ForceRefreshRate(<hz>)	emuObj.ForceRefreshRate(50) correct values are 0, 50, 60 where 0 = default.
LoadFsShader	emuObj.LoadFsShader(<slot?>, "<path>")	Shaders must be loaded right after GS has been initialized. Example: Global_InitGpuResources = function() emuObj.LoadFsShader(1, "./shader.sb") end That only load Fragment Shader to program memory, to use it we need BindFragmentShader, and if depend on shader SetShaderParams.
SetDisplaySafeArea

(EE) EEObject[edit | edit source]

Commands for the emulated Emotion Engine

Command	Usage	Notes
	Object calling class
getEEObject	local eeObj = getEEObject()	Required for all functions using eeObj
	Memory editing
ReplaceMem64	eeObj.ReplaceMem64(<address>, <value>)
ReplaceMem32	eeObj.ReplaceMem32(<address>, <value>)	Permanently replace an offset without needing addvsynchook?
ReplaceMem16	eeObj.ReplaceMem16(<address>, <value>)
ReplaceMem8	eeObj.ReplaceMem8(<address>, <value>)
ReadMemFloat	eeObj.ReadMemFloat(<address>)	eeObj.ReadMemFloat(0x258c3c)
WriteMemFloat	eeObj.WriteMemFloat(<address>, <value>)	eeObj.WriteMemFloat(0x365364, 1.3333333)
ReadMem128	eeObj.ReadMem128(<ee memory offset>)	Read 16 bytes from offset, examples: eeObj.ReadMem128(0x100198)
ReadMemFloat128	eeObj.ReadMemFloat128(<ee memory offset>)	return 16 bytes from offset in float form
WriteMem128
WriteMemFloat128
ReadMem64	eeObj.ReadMem64(<ee memory offset>)	Read 8 bytes from offset, examples: eeObj.ReadMem64(0x100198)
WriteMem64	eeObj.WriteMem64(<ee memory offset>, <data>)
ReadMem32	eeObj.ReadMem32(<ee memory offset>)	Read 4 bytes from offset, examples: eeObj.ReadMem32(0x100198) eeObj.ReadMem32(gp - 31348)
WriteMem32	eeObj.WriteMem32(<ee memory offset>, <data>)	Write 4 bytes to offset, example: eeObj.WriteMem32(0x2c89ac, 0x001b70f0)
ReadMem16	eeObj.ReadMem16(<ee memory offset>)	Read 2 bytes from offset, example: eeObj.ReadMem16(0x100198)
WriteMem16	eeObj.WriteMem16(<ee memory offset>, <data>)	Write 2 bytes to offset, example: eeObj.WriteMem16(0x2c89ac, 0x70f0)
ReadMem8	eeObj.ReadMem8(<ee memory offset>)	Read 1 byte from offset, example: eeObj.ReadMem8(0x100198)
WriteMem8	eeObj.WriteMem8(<ee memory offset>, <data>)	Write 1 byte to offset, example: eeObj.WriteMem8(0x2c89ac, 0xf0)
ReadMemStr	eeObj.ReadMemStr(address/register)	Read string from address until null terminator
WriteMemStr	eeObj.WriteMemStr(address, string)
WriteMemStrZ		eeObj.WriteMemStrZ(string pointer, string) . Pointer can be read from GPR
	GPR require (Necessary for register related commands)
	local gpr = require( "ee-gpr-alias" )
GetGpr64	eeObj.GetGPR64(<gpr register>)	example: eeObj.GetGPR64(t3)
SetGpr64
GetGprFloat		Get gpr value as float value
SetGprFloat		Set gpr value as float value
GetGpr	eeObj.GetGPR(<gpr register>)	eeObj.GetGPR(t3)
SetGpr	eeObj.SetGPR(<gpr register> ,<value>)	example: eeObj.SetGPR(gpr.a3 ,1) Require defined getEEObject() as eeObj
GetFprHex	eeObj.GetFprHex(<FPU register (0-31)>)	Get/return floating point register value as hex string
SetFprHex	eeObj.SetFprHex(<FPU register (0-31), value (u32)>)	Set floating point register value as hex string
GetFpr	eeObj.GetFpr(<register number>)	example eeObj.GetFpr(14)
SetFpr	eeObj.SetFpr(<fpr register number>, <value>)	Simple example eeObj.SetFpr(14, 50.0) will set frp 14 to 50.0 But we can also combine commands to add/sub from registers eeObj.SetFpr(14, eeObj.GetFpr(14) + 50.0) this will add 50.0 to current fpr 14 value
GetPc	eeObj.GetPc()	This command is very helpful as it will return to you the current EE address that's being read. Can be used also with additional var. like eeObj.GetPc()+4
SetPc	eeObj.SetPC(<PC>)	eeObj.SetPC(0x266B80)
GetCPR0	eeObj.GetCPR0(<COP0 register>)
SetCPR0	eeObj.SetCPR0(<COP0 register>)
	Hooks
AddHook	eeObj.AddHook(<ee offset>, <original opcode>, <definied hook name>)	example: local W1 = function() emuObj.SetDisplayAspectNormal() end local ws1 = eeObj.AddHook(0x1c9840, 0xaf808c78, W1)
RemoveHook
AddPreHook
AddPostHook
RemovePreHook
RemovePostHook
AddJitResetHook
RemoveJitResetHook
AddHookJT	eeObj.AddHookJT(Offset, offset opcode, function)	Seems be a hook related to the jit
	Dma
DmaAddHook	eeobj.DmaAddHook(channel=%d key=%x)	Possible Dma channel numbers (?) GIF = 0 VIF0 = 1 VIF1 = 2 SIF0 = 4 SIF1 = 5 IPU0 = 6 IPU1 = 7 Possible values for hooks DmaTransfer [VIF0/VIF1], RaiseIntc [VIF0/VIF1], NormalTransfer [SIF0/SIF1].
DmaRemoveHook
	Speedhacks
FastForwardClock	eeObj.FastForwardClock()	Skip Emotion Engine cycles?
AdvanceClock	eeObj.AdvanceClock()	it is still unknown how to use this command. Check Psychonauts lua for more details.
GetClock	eeObj.GetClock()	Returns the value of how many cycles the EE is ahead of normal clock (?)
Vu1MpgCycles	eeObj.Vu1MpgCycles(<cycles>)	Works just like the cli command --vu1-mpg-cycles=
	Other
CallPredicate
SchedulerDelayEvent	eeObj.SchedulerDelayEvent("event", cycles) Example: eeObj.AddHook(0x0033A4DC,0xAC430000, function() eeObj.SchedulerDelayEvent("gif.dma", 0x10500) end)	Parrapa use eeObj.SchedulerDelayEvent("vif1.dma", 0x6500) other events are gif.dma, vif0.dma, vif1.dma, sif0.dma, Sif0-NormalTransfer, sif1.dma, Sif1-NormalTransfer, ipu0.dma, ipu1.dma . This command allows for the delayment of certain DMA transfer by cycles.
WaitVu1	eeObj.WaitVu1()	Likely to be the lua equivalent of "--vu1=jit-sync".
GetPcRingBuffer
Precompile		Requires unknown values
CalcInsnHash
getOverlayObject	eeObj.getOverlayObject()	local eeOverlay = eeObj.getOverlayObject()
GetVif1Cycles	eeObj.GetVif1Cycles()	local vif1_cycles = eeObj.GetVif1Cycles() create vif_cycles value that can be used later. You can rename it as you wish.

SetGsTitleFix[edit | edit source]

One of the most important commands in lua, allows to change the GS's behavior.
Part of EmuObject() class. Used frequently in official configs.

Examples

-- fix vision logo (Wild Arms 3)
local thresholdArea = 0 -- ignore alls items : fix #112276
emuObj.SetGsTitleFix( "ignoreUpRender", thresholdArea , {  texType = 3, cbp = 0x2390, tbp = 0x288000} )
------------------------------------------------------------------------------------------------------
-- Ignore up-render shift for triangles when writing mask = write alpha only . Will fix shadows (bug# 6724).
emuObj.SetGsTitleFix( "ignoreUpShiftTri", "reserved" , { fbmask = 0x00FFFFFF  } )
------------------------------------------------------------------------------------------------------
--  Performance  fix ( bug# 9474 )
if 0 then   -- emuObj.IsNeoMode() then  -- neo mode check disabled, due to bug #10442
    emuObj.SetGsTitleFix( "globalSet",  "reserved", { workLoadThreshold = 125000} )
else
    emuObj.SetGsTitleFix( "globalSet",  "reserved", { workLoadThreshold = 100000} )
end
------------------------------------------------------------------------------------------------------
-- bug# 9972
emuObj.SetGsTitleFix( "ignoreSubBuffCov", "reserved", { } )
------------------------------------------------------------------------------------------------------
-- Bully bug 9392
-- Performace fix
local thresholdArea = 600
emuObj.SetGsTitleFix( "ignoreUpRender", thresholdArea , {alpha=0x80000044 , zmsk=1 , tw=4, th=4  } )
------------------------------------------------------------------------------------------------------
-- Bug#9174 -
emuObj.SetGsTitleFix( "ignoreSubBuffCov", "reserved", { } )
------------------------------------------------------------------------------------------------------
-- Bug#9240 (Light maps uprender)
-- Copy z-buffer for future use with light maps. psm = SCE_GS_PSMZ24 (49)
emuObj.SetGsTitleFix( "forceSimpleFetch", "reserved", {tw=9, th=9, psm=49, zmsk=1 } )
------------------------------------------------------------------------------------------------------
-- Apply light maps texMode=2 (bilinear)   psm= SCE_GS_PSMCT32 (0)
emuObj.SetGsTitleFix( "forceSimpleFetch", "reserved", {tw=8, th=8, psm=0, ztst=1, texMode=2 } )
------------------------------------------------------------------------------------------------------
-- Performace fix (bug #9785 )
emuObj.SetGsTitleFix( "globalSet",  "reserved", { waveThreshold = 90000} )
emuObj.SetGsTitleFix( "ignoreAreaUpdate", 0, { } )
------------------------------------------------------------------------------------------------------
-- Accumulate fill area only when conditions are met
emuObj.SetGsTitleFix( "includeAreaUpdate", "reserved" , {alphaIsNot = 0, zmsk = 1, tw = 6, th = 6 , tbp = 0x00302000} )
emuObj.SetGsTitleFix( "ignoreUpRender", 130 , { totalArea= 700} )
------------------------------------------------------------------------------------------------------
-- Fix shadow
emuObj.SetGsTitleFix( "forceSimpleFetch", "reserved", { texMode=1  } )
------------------------------------------------------------------------------------------------------
-- Reduce flush count
emuObj.SetGsTitleFix( "SetSelfRender", "reserved", { fbmask= 0x00FFFFFF , renderSelf=1 , zmsk=1 , alpha=0 , texMode=1  } )
------------------------------------------------------------------------------------------------------
-- Disable post-processing
emuObj.SetGsTitleFix( "ignoreSprite", "reserved", {  texType=1 , tw=5 , th=8, zmsk=1 , alpha=0x80000044  } )
------------------------------------------------------------------------------------------------------
-- Small triangle rejection. Works in conjunction with CLI setting   gs-override-small-tri-area=1
-- keep default area for texture 256x256 ( no blend)  (Anakin face)
emuObj.SetGsTitleFix( "setRejectionArea", 500,{twIsNot=8, thIsNot=8 } )
------------------------------------------------------------------------------------------------------
-- Set triangle rejection area= 1000  when alpha blend is not 0 ( i.e blend is On)
emuObj.SetGsTitleFix( "setRejectionArea", 1000, {alphaIsNot=0 } )
------------------------------------------------------------------------------------------------------
-- Performace fix
local thresholdArea = 600
emuObj.SetGsTitleFix( "ignoreUpRender", thresholdArea , {alpha=0x80008068 , zmsk=1 } )
------------------------------------------------------------------------------------------------------
-- Performace fix
local thresholdArea = 700
emuObj.SetGsTitleFix( "ignoreUpRender", thresholdArea , {alpha=0x80000044 , zmsk=1 } )
------------------------------------------------------------------------------------------------------
-- Disable uprender on the draw command which samples the framebuffer (0x3200) using bilinear sampling (texMode=2)
-- All lighting effects use TriFan prim type, so use that as well to filter against.
emuObj.SetGsTitleFix( "forceSimpleFetch",  "reserved", {prim=5, texMode=2, tbp=0x320000} )

Commands

Command	Example	Notes
globalSet	emuObj.SetGsTitleFix( "globalSet", "reserved", { packedRegsLo = 0x42,packedRegsHi = 0, packedRegsNum = 2, packedFlags = 3, packedPrim = 5})	used with workLoadThreshold or waveThreshold or loadThreshold
reserved
ignoreSubBuffCov		ignore ? buffer coverage
ignoreUpRenderTimeout	emuObj.SetGsTitleFix( "globalSet", "reserved", {ignoreUpRenderTimeout=2} )
ignoreAreaUpdate	emuObj.SetGsTitleFix( "ignoreAreaUpdate", 0, { alpha=0x80000048 } )
ignoreSprite	emuObj.SetGsTitleFix( "ignoreSprite", "reserved", { texType=1 , tw=5 , th=8, zmsk=1 , alpha=0x80000044 } )
ignoreUpShiftTri	emuObj.SetGsTitleFix( "ignoreUpShiftTri", "reserved", {psm=0} )
clipScissors	emuObj.SetGsTitleFix( "clipScissors", "reserved", {alpha = 0 , frameW = 4 , psm = 0} )
trianglesAsParticles	emuObj.SetGsTitleFix( "trianglesAsParticles", "reserved", { hasClut=1,zmsk=1 } )
SetSelfRender	emuObj.SetGsTitleFix( "SetSelfRender", "reserved", { fbmask= 0x00FFFFFF , renderSelf=1 , zmsk=1 , alpha=0 , texMode=1 } )
forceBiLinear
forcePoint	emuObj.SetGsTitleFix( "forcePoint", "reserved", {mipIsGt=0, mmin=0} )
forceSimpleFetch	emuObj.SetGsTitleFix( "forceSimpleFetch", "reserved", {psm=0} )	Used frequently to fix graphical corruptions
forcePointSampling	emuObj.SetGsTitleFix( "forcePointSampling", "reserved", {alpha = 0x80000048, twIsLess=5, thIsLess=5 } )
setRejectionArea	emuObj.SetGsTitleFix( "setRejectionArea", 1000, { } )
ignoreUpRender	emuObj.SetGsTitleFix( "ignoreUpRender", thresholdArea , { texType = 3, cbp = 0x2390, tbp = 0x288000} )	Ignore uprender for texture type described in params
includeAreaUpdate
fetchFromCurrBuff	emuObj.SetGsTitleFix( "fetchFromCurrBuff", "reserved", {psm=0} )
skipPacked	emuObj.SetGsTitleFix( "skipPacked", "reserved", { alpha = 0x80000044, tbp = 0x3a4000 , zmsk=1 })
changeAlpha

Arguments/variables

Argument	Usage	Notes
	Variable
alpha_mask
texType	{texType = 3}	(1-3, more? )
texMode		1 - Point? , 2 - bilinear
	Argument
alphaIsNot		alpha - is not X
twIsLess		texture width - is less than X
thIsLess		texture height - is less than X
twIsNot		texture width - is not X
thIsNot		texture width - is not X
psmIsNot		texture pixel storage format - is not X PSMCT32 = 0 PSMT4HL = 36 PSMCT24 = 1 PSMT4HH = 44 PSMCT16 = 2 PSMZ32 = 48 PSMCT16S = 10 PSMZ24 = 49 PSMT8 = 19 PSMZ16 = 50 PSMT4 = 20 PSMZ16S = 58 PSMT8H = 27
primIsNot		GS primitive type - is not Point = 0 Line = 1 LineStrip = 2 Triangle = 3 TriangleStrip = 4 TriangleFan = 5 Sprite = 6
mipIsGt		mip level is grater than X (?)
	Needs wikify
zmsk		Z (depth) draw mask update Z buffer = 0 don't update Z buffer = 1 When 1 depth test result will be ignored
tw		texture width
th		texture height
ztst		Z (depht) test method ZNOUSE = 0 ZALWAYS = 1 ZGEQUAL = 2 ZGREATER = 3 0 - All pixels fail 1 - All pixels pass 2 - Pass if Z grater or equal to Z buffer 3 - Pass if Z grater than Z buffer
mmin		MMIN flag NEAREST = 0 LINEAR = 1 NEAREST_MIPMAP_NEAREST = 2 NEAREST_MIPMAP_LINEAR = 3 LINEAR_MIPMAP_NEAREST = 4 LINEAR_MIPMAP_LINEAR = 5
prim		GS primitive type Point = 0 Line = 1 LineStrip = 2 Triangle = 3 TriangleStrip = 4 TriangleFan = 5 Sprite = 6
fillArea
frameW
renderSelf
hasClut
alphaTest
primTest
workLoadThreshold
alpha		example: alpha=0x80000044 alpha=0
tbp		texture base pointer
cbp	{cbp = 0x2390}	CLUT buffer base pointer
psm	{psm=0}	texture pixel storage format PSMCT32 = 0 PSMT4HL = 36 PSMCT24 = 1 PSMT4HH = 44 PSMCT16 = 2 PSMZ32 = 48 PSMCT16S = 10 PSMZ24 = 49 PSMT8 = 19 PSMZ16 = 50 PSMT4 = 20 PSMZ16S = 58 PSMT8H = 27
mxl		maximum mip level (0-6)
fbmask	{ fbmask= 0x00FFFFFF}	Framebuffer mask(?)
totalArea
packedRegs
packedRegsLo
packedRegsHi
packedRegsNum
packedFlags
packedPrim
areaNumFrames
waveThreshold
loadThreshold
fixSpriteDivTab

(IOP) IOPObject[edit | edit source]

Commands for the emulated input-output processor

Command	Usage	Notes
	Object calling class
getIOPObject	local iopObj = getIOPObject()	Required for all functions using iopObj, that include: ReplaceMem64 ReplaceMem32 ReplaceMem16 ReplaceMem8 ReadMemFloat WriteMemFloat WriteMem64 WriteMem32 WriteMem16 WriteMem8 ReadMemStr AddHook RemoveHook GetGpr SetGpr GetPc SetPc GetCPR0 SetCPR0
	Memory editing
ReplaceMem64	iopObj.ReplaceMem64(<address>, <value>)
ReplaceMem32	iopObj.ReplaceMem32(<address>, <value>)
ReplaceMem16	iopObj.ReplaceMem16(<address>, <value>)
ReplaceMem8	iopObj.ReplaceMem8(<address>, <value>)
ReadMemFloat	iopObj.ReadMemFloat(<address>)	iopObj.ReadMemFloat(0x28c3c)
WriteMemFloat	iopObj.WriteMemFloat(<address>, <value>)	iopObj.WriteMemFloat(0x65364, 1.3333333)
ReadMem128	iopObj.ReadMem128(<iop memory offset>)
WriteMem128	iopObj.WriteMem128(<iop memory offset>, <value>)
ReadMemFloat128	iopObj.ReadMemFloat128(<iop memory offset>)
WriteMemFloat128	iopObj.WriteMemFloat128(<iop memory offset>, <value>)
ReadMem64	iopObj.ReadMem64(<iop memory offset>)	Read 8 Bytes From offset
WriteMem64	iopObj.WriteMem64(<iop memory offset>, <data>)	Write 8 Bytes From offset
ReadMem32	iopObj.ReadMem32(<iop memory offset>)	Read 4 bytes from offset, examples: iopObj.ReadMem32(0x1198) iopObj.ReadMem32(gp - 348)
WriteMem32	iopObj.WriteMem32(<iop memory offset>, <data>)	Write 4 bytes to offset, example: iopObj.WriteMem32(0x89ac, 0x001b70f0)
ReadMem16	iopObj.ReadMem16(<iop memory offset>)	Read 2 bytes from offset, example: iopObj.ReadMem16(0x1198)
WriteMem16	iopObj.WriteMem16(<iop memory offset>, <data>)	Write 2 bytes to offset, example: iopObj.WriteMem16(0x89ac, 0x70f0)
ReadMem8	iopObj.ReadMem8(<iop memory offset>)	Read 1 byte from offset, example: iopObj.ReadMem8(0x1198)
WriteMem8	iopObj.WriteMem8(<iop memory offset>, <data>)	Write 1 byte to offset, example: iopObj.WriteMem8(0x89ac, 0xf0)
ReadMemStr
GetGpr	iopObj.GetGPR(<gpr register>)	iopObj.GetGPR(a1)
SetGpr	iopObj.SetGPR(<gpr register> ,<value>)	example: iopObj.SetGPR(gpr.v0 ,3)
GetPc	iopObj.GetPc()	can be used also with additional var. like iopObj.GetPc()+8
SetPc	iopObj.SetPC(<PC>)	iopObj.SetPC(0x6B80)
GetCPR0	iopObj.GetCPR0(<COP0 register>)
SetCPR0	iopObj.SetCPR0(<COP0 register>)
	Clock speed
FastForwardClock	iopObj.FastForwardClock()
AdvanceClock	iopObj.AdvanceClock()
GetClock	iopObj.GetClock()	Returns the value of cycles the iop is ahead of (?)
	Hooks
AddHook	iopObj.AddHook()
RemoveHook	iopObj.RemoveHook()

(GS) GsObject[edit | edit source]

Commands for the emulated Graphics synthesizer

Command	Usage	Notes
	Object calling class
getGsObject	local gsObj = getGsObject()
	Graphical fixes / Improvement
SetL2HMode	gsObj.SetL2HMode(true)	(true) and (false) are only known options
SetUprenderMode	gsObj.SetUprenderMode(1)	Set uprender mode. Overrides CLI, 0=none, 1=2x2
SetUpscaleMode	gsObj.SetUpscaleMode("EdgeSmooth")	Sets upscale mode. Overrides CLI
GetFramesInQueue	gsObj.GetFramesInQueue()	Returns the value of the frames that are still in queue
SetFrameSkipping	gsObj.SetFrameSkipping(true)	false and true are the values.
SetDeinterlaceShift	gsObj.SetDeinterlaceShift(0)	The values are 1 and 0, Enable or disable interlacing, requires emulators with high api

Does not require Object calling or Uknown[edit | edit source]

Command	Usage	Notes
eeInsnReplace	eeInsnReplace(EE memory offset, Original opcode (BE), Replace opcode (BE))	Replace 4 bytes opcode in ee memory, correct memory range is 0x0 to 0x1FFFFFFF
vuInsnReplace	vuInsnReplace(vu 0/1, vu memory offset divided by 8, (original opcode<<32) \| original opcode, (replace opcode<<32) \| replace opcode)	Replace 2 x 4 bytes in VU memory, correct memory range depend on selected VU, left shift by 32 is used for VU lower opcodes. Command will fail if size is above 254. example: vuInsnReplace(0, 0x167, (0x000002ff << 32) \| 0x520507ff,(0x000002ff << 32) \| 0x8000033c) Replace 64 bits of VU0 at offset 0xB38
iopInsnReplace	iopInsnReplace(IOP memory offset, Original opcode, opcode replacement)	Replace 4 bytes in iop memory, correct memory range is 0x0 to 0x1FFFFF, iopInsnReplace(0x1FFFFF, 0x0, 0x0803fff0)
eeNativeFunction	eeNativeFunction(<ee offset>, <original opcode>, <function>)	eeNativeFunction(0x11fa9c, 0x0080402d, 'memcpy') Different emulators can have different functions included, vide SO3. Require api 1.4 or higher. But functions from this list should be available in every emu: ieee754_acosf ieee754_asinf ieee754_sqrtf fabs cosf fabsf sinf acosf asinf sqrtf fptoui fptodp litodp dptoli dptofp memcpy memset strlen
eeNativeHook	eeNativeHook(<ee ofset>, <original opcode>, <action>)	eeNativeHook require apiRequest(1.4) or higher.
GsCustomShader
Unlock
IsUnlocked
InsnOverlay	InsnOverlay({<opcode, opcode, opcode...>})	example: InsnOverlay({ 0x27bdfff0, -- addiu $sp, -0x10 0xffbf0000, -- sd $ra, 0(sp) 0xffb00008, -- sd $s0, 8(sp) 0x3c05000f, -- lui $a1, 0x000f 0x34a57000, -- ori $a1, 0x7000 0x0c0db8b6, -- jal Script::State::DoString 0x0080802d, -- move $s0, $a0 0x24050001, -- li $a1, 1 0x0c0dba4c, -- jal Script::State::IsNull(int) 0x0200202d, -- move $a0, $s0 0xdfb00008, -- ld $s0, 8(sp) 0xdfbf0000, -- ld $ra, 0(sp) 0x03e00008, -- jr ra 0x27bd0010 -- addiu $sp, 0x10 })
eeDebugBreak
CsBindShader
CsSetParamInt32
CsSetParamFloat
CsResetContext
CsPrintContext
PsBindShader
PsSetParamInt32
PsSetParamFloat
PsResetContext
PsPrintContext

Note: eeObj, emuObj, gsObj, etc are described as required, this is not really true. You can set functions locals they use as whatever you want, but due to specify of that emulator it will be better to keep official naming used in official configs.

Other objects[edit | edit source]

Command	Usage	Notes
	getGLSObject class
getGLSObject
Enable
EnableServerRecording
Pause
	getAudioObject class
getAudioObject
muteStreamingAll
muteStreamingMain
muteStreamingBGM
	getRemotePlayObject class
getRemotePlayObject
Enable
	getVideoRecordingObject class
getVideoRecordingObject
Enable
	getSharePlayObject class
getSharePlayObject
Enable
	getSpriteObject group
getSpriteObject
Enable
Disable
BindFragmentShader
SetShaderParams		Is not clear that params depend on shader, or are somehow hardcoded. Example usage: local sprite0 = getSpriteObject(0) local scanlineParams = { 240.0, -- float scanlineCount 0.7, -- float scanlineHeight; 1.5, -- float scanlineBrightScale; 0.5, -- float scanlineAlpha; 0.5 -- float vignetteStrength; } sprite0.SetShaderParams(scanlineParams)
BindTexture
SetPosXY
SetSizeXY
SetPosUV
SetSizeUV
PrintContext
SetBlendColor	sprite<X>.SetBlendColor(<R,G,B,A>) in floats, max val. 1.0	local sprite0 = getSpriteObject(0) sprite0.SetBlendColor(1.0,1.0,1.0,1.0)
getTrophyObject	local trophyObj = getTrophyObject()	Required for all functions using trophyObj
getDmaObject	local dmaObj = getDmaObject()	Depreciated API - use EE:DmaAddHook / EE:DmaRemoveHook instead. Is not clear when it was depreciated, JAK emu don't use it.
getScreenShotObject

Registers for hook[edit | edit source]

Registers defined in alias files.

GetGpr/SetGpr

gpr.zero gpr.at 
gpr.v0  gpr.v1 
gpr.a0  gpr.a1  gpr.a2  gpr.a3 
gpr.t0  gpr.t1  gpr.t2  gpr.t3 
gpr.t4  gpr.t5  gpr.t6  gpr.t7 
gpr.s0  gpr.s1  gpr.s2  gpr.s3 
gpr.s4  gpr.s5  gpr.s6  gpr.s7 
gpr.t8  gpr.t9
gpr.k0  gpr.k1 
gpr.gp  gpr.sp  gpr.fp  gpr.ra 
gpr.lo  gpr.hi  gpr.sa

example: eeObj.GetGpr(gpr.a1)

GetCPR0/SetCPR0

cpr.index	  cpr.pagemask
cpr.random	  cpr.wired	
cpr.entrylo0      cpr.badvaddr
cpr.entrylo1      cpr.count	
cpr.context	  cpr.entryhi	


cpr.compare	  cpr.config    cpr.taglo	
cpr.status	  cpr.badpaddr  cpr.taghi	
cpr.cause	  cpr.hwbk	cpr.errorepc
cpr.epc		  cpr.pccr	
cpr.prid

example: eeObj.GetCPR0(cpr.status)

Official examples[edit | edit source]

You can find the rest of them here
Canis Canem Edit
SLES 535.61
LUA

require( "ee-gpr-alias" ) -- you can access EE GPR by alias (gpr.a0 / gpr["a0"])
apiRequest(0.1)
-- EA sports cricket 07 bug 9392
-- Performance fix
local emuObj = getEmuObject()	
local thresholdArea = 600
emuObj.SetGsTitleFix( "ignoreUpRender", thresholdArea , {alpha=0x80000044 , zmsk=1 , tw=4, th=4  } )

Custom config.lua examples[edit | edit source]

Here is the first custom lua config created by the community:

apiRequest(0.1)

-- Fix black screen SLUS-20064

eeInsnReplace(0x1CF3CC, 0x4100ffff, 0x00000000)	-- bc0f 0x1CF3CC to nop

This is a very basic command to replace a part of the EE memory with another instruction.

apiRequest(0.1) - Is required for every config. Used version depend on your original eboot highest supported api. 0.1 seems to be enough for basic patches like here. 2.3 is highest known for now.
-- Fix black screen SLUS-20064 is comment
eeInsnReplace(0x1CF3CC, 0x4100ffff, 0x00000000) is our true command here. We are replacing the value 0x4100FFFF to 0x00000000 at the offset of 0x1CF3CC . Like you can see we need to add what opcode is replaced. Not only patch, and memory offset.
-- bc0f 0x1CF3CC to nop is just another comment, in this case explaining what is changed

Other custom configurations made by users can be found here

Memory Mapping[edit | edit source]

Name	From	To
EE Flat Memory (4gb)	0x0000008000000000	0x0000008100000000
IOP Flat Memory (4gb)	0x0000009000000000	0x0000009100000000
R59 Binary Cache	0x0000000914B10000	0x0000000916B10000
R30 Binary Cache	0x0000000916B14000	0x0000000917314000
jitVU0	0x0000000917318000	0x0000000917B18000
jitVU1	0x0000000917B1C000	0x0000000918B1C000
	Host's EE Memory Map
EE RAM - Kernel	0x0000008000000000	0x0000008000080000
EE RAM - Debug	0x0000008000078000	0x0000008000080000
EE RAM - User	0x0000008000080000	0x0000008002000000
EE Hw Devices	0x0000008010000000	0x0000008010010000
EE ROM	0x000000801FC00000	0x000000801FFE0000
EE RAM - Uncached	0x0000008020080000	0x0000008022000000
EE RAM - UncachedAccel	0x0000008030100000	0x0000008032000000
EE Scratchpad	0x0000008070000000	0x0000008070004000
EE Debug	0x00000080FFFF8000	0x0000008100000000
	Host's IOP Memory Map
IOP RAM	0x0000009000000000	0x0000009000200000
IOP RAM (mirror 1)	0x0000009000200000	0x0000009000400000
IOP RAM (mirror 2)	0x0000009000400000	0x0000009000600000
IOP RAM (mirror 3)	0x0000009000600000	0x0000009000800000
IOP Scratchpad	0x000000901F800000	0x000000901F801000
IOP HW	0x000000901F801000	0x000000901F810000
IOP ROM	0x000000901FC00000	0x000000901FFE0000

Registers Map[edit | edit source]

EE-IOP[edit | edit source]

This list of registers is yet to be completed. Some registers are incorrectly named or include incorrect offsets. 0x1000000xxx base is not guaranteed in different emu revisions, but layout should be the same regardless.
Assuming base is different (Like on kof2000), simply reduce these offsets by 8 hex values
(IOP, VU0, and VU1 registers' offsets are static in all emulators).

 List was designed for Jak v2
Eboot md5:c644f6879af225a6e5a70233fc4625a3

GPR-EE	Address	FPR	Address	CP0	Address	GPR-IOP	Address
zero	0x1000000000	f00	0x1000000230	Index	0x10000002D0	zero	0x1020000000
at	0x1000000010	f01	0x1000000234	Random	0x10000002D4	at	0x1020000004
v0	0x1000000020	f02	0x1000000238	EntryLo0	0x10000002D8	v0	0x1020000008
v1	0x1000000030	f03	0x100000023C	EntryLo1	0x10000002DC	v1	0x102000000C
a0	0x1000000040	f04	0x1000000240	Context	0x10000002E0	a0	0x1020000010
a1	0x1000000050	f05	0x1000000244	PageMask	0x10000002E4	a1	0x1020000014
a2	0x1000000060	f06	0x1000000248	Wired	0x10000002E8	a2	0x1020000018
a3	0x1000000070	f07	0x100000024C	rsvd7	0x10000002EC	a3	0x102000001C
t0	0x1000000080	f08	0x1000000250	BadVAddr	0x10000002F0	t0	0x1020000020
t1	0x1000000090	f09	0x1000000254	Count	0x10000002F4	t1	0x1020000024
t2	0x10000000A0	f10	0x1000000258	EntryHi	0x10000002F8	t2	0x1020000028
t3	0x10000000B0	f11	0x100000025C	Compare	0x10000002FC	t3	0x102000002C
t4	0x10000000C0	f12	0x1000000260	Status	0x1000000300	t4	0x1020000030
t5	0x10000000D0	f13	0x1000000264	Cause	0x1000000304	t5	0x1020000034
t6	0x10000000E0	f14	0x1000000268	EPC	0x1000000308	t6	0x1020000038
t7	0x10000000F0	f15	0x100000026C	PRid	0x100000030C	t7	0x102000003C
s0	0x1000000100	f16	0x1000000270	Config	0x1000000310	s0	0x1020000040
s1	0x1000000110	f17	0x1000000274	Iab	0x1000000314	s1	0x1020000044
s2	0x1000000120	f18	0x1000000278	Iabm	0x1000000318	s2	0x1020000048
s3	0x1000000130	f19	0x100000027C	Dab	0x100000031C	s3	0x102000004C
s4	0x1000000140	f20	0x1000000280	Dabm	0x1000000320	s4	0x1020000050
s5	0x1000000150	f21	0x1000000284	Dvm	0x1000000324	s5	0x1020000054
s6	0x1000000160	f22	0x1000000288	Dvbm	0x1000000328	s6	0x1020000058
s7	0x1000000170	f23	0x100000028C	BadPAddr	0x100000032C	s7	0x102000005C
t8	0x1000000180	f24	0x1000000290	Debug	0x1000000330	t8	0x1020000060
t9	0x1000000190	f25	0x1000000294	Perf	0x1000000334	t9	0x1020000064
k0	0x10000001A0	f26	0x1000000298	Pcr0	0x1000000338	k0	0x1020000068
k1	0x10000001B0	f27	0x100000029C	Pcr1	0x100000033C	k1	0x102000006C
gp	0x10000001C0	f28	0x10000002A0	TagLo	0x1000000340	gp	0x1020000070
sp	0x10000001D0	f29	0x10000002A4	TagHi	0x1000000344	sp	0x1020000074
fp	0x10000001E0	f30	0x10000002A8	ErrorEPC	0x1000000348	fp	0x1020000078
ra	0x10000001F0	f31	0x10000002AC	Rsvd31	0x100000034C	ra	0x102000007C
hi/hi1 (2x 64bit)	0x1000000200	fACC	0x10000002B0	COP0 additional registers		pc	0x102000008C
lo/lo1 (2x 64bit)	0x1000000210	FPU CTRL (FCR)		real Pcr0	0x1000000350	hi	0x1020000090 ??
sa	0x1000000220	cp1cond	0x10000002B4	real Pcr1	0x1000000358	lo	0x1020000094 ??
		fpu ver	0x10000002B8
		fpu sticky	0x10000002BC
		fpu ctrl	0x10000002C0
		2CF unknown	0x10000002C4

Emulator related regs[edit | edit source]

"Fake" registers	Address	Notes
(?)	0x1000000360	Locking the value seems to cause a crash.
Current PC (4 Bytes)	0x1000000368	Shows the current offset that's being executed by the EE. Updated only on branch/jump tests, unless commands such as --ee-pc-coherency or --ee-insn-flush-pc are used. Then updates are instant, right when instructions are executed. Commonly used by sceners as a way of finding troublesome offsets. Can be found in some emulators here too: 0x8000016830
(?)	0x100000036C	Updated on branch/jump instructions, emulator seems to use it to store next address that will be executed. At least in recompiler to interpreter fallback mode. During tests it shows 0x80000184
Delta counter	0x1000000370	(Passed cycles, likely decrementer). Evt check is performed on branch test when 0. Fastforwardclock set this to 0, advanceclock subtract value from this fake reg)
Cycles	0x1000000378
(?)	0x1000000384	Address when last exception occurred on r5900. This register most of times will hold last executed syscall address, sometimes last tlb miss or break(if "as nop" is disabled). Unlike the pc, this one doesn't change after a crash and has much lower latency. Thus meaning it's better at diagnosing problems.

VU0 Registers[edit | edit source]

Register	W	Z	Y	X	Register	W	Z	Y	X
vf00	0x103000000C	0x1030000008	0x1030000004	0x1030000000	vf17	0x103000011C	0x1030000118	0x1030000114	0x1030000110
vf01	0x103000001C	0x1030000018	0x1030000014	0x1030000010	vf18	0x103000012C	0x1030000128	0x1030000124	0x1030000120
vf02	0x103000002C	0x1030000028	0x1030000024	0x1030000020	vf19	0x103000013C	0x1030000138	0x1030000134	0x1030000130
vf03	0x103000003C	0x1030000038	0x1030000034	0x1030000030	vf20	0x103000014C	0x1030000148	0x1030000144	0x1030000140
vf04	0x103000004C	0x1030000048	0x1030000044	0x1030000040	vf21	0x103000015C	0x1030000158	0x1030000154	0x1030000150
vf05	0x103000005C	0x1030000058	0x1030000054	0x1030000050	vf22	0x103000016C	0x1030000168	0x1030000164	0x1030000160
vf06	0x103000006C	0x1030000068	0x1030000064	0x1030000060	vf23	0x103000017C	0x1030000178	0x1030000174	0x1030000170
vf07	0x103000007C	0x1030000078	0x1030000074	0x1030000070	vf24	0x103000018C	0x1030000188	0x1030000184	0x1030000180
vf08	0x103000008C	0x1030000088	0x1030000084	0x1030000080	vf25	0x103000019C	0x1030000198	0x1030000194	0x1030000190
vf09	0x103000009C	0x1030000098	0x1030000094	0x1030000090	vf26	0x10300001AC	0x10300001A8	0x10300001A4	0x10300001A0
vf10	0x10300000AC	0x10300000A8	0x10300000A4	0x10300000A0	vf27	0x10300001BC	0x10300001B8	0x10300001B4	0x10300001B0
vf11	0x10300000BC	0x10300000B8	0x10300000B4	0x10300000B0	vf28	0x10300001CC	0x10300001C8	0x10300001C4	0x10300001C0
vf12	0x10300000CC	0x10300000C8	0x10300000C4	0x10300000C0	vf29	0x10300001DC	0x10300001D8	0x10300001D4	0x10300001D0
vf13	0x10300000DC	0x10300000D8	0x10300000D4	0x10300000D0	vf30	0x10300001EC	0x10300001E8	0x10300001E4	0x10300001E0
vf14	0x10300000EC	0x10300000E8	0x10300000E4	0x10300000E0	vf31	0x10300001FC	0x10300001F8	0x10300001F4	0x10300001F0
vf15	0x10300000FC	0x10300000F8	0x10300000F4	0x10300000F0	ACC	0x103000020C	0x1030000208	0x1030000204	0x1030000200
vf16	0x103000010C	0x1030000108	0x1030000104	0x1030000100

Register	Address	Register	Address
vi00	0x1030000210	Status	0x1030000310??
vi01	0x1030000220	MACflag	0x1030000320??
vi02	0x1030000230	Clipflag	0x1030000330??
vi03	0x1030000240	c2c19	0x1030000340??
vi04	0x1030000250	R	0x1030000350??
vi05	0x1030000260	I	0x1030000360
vi06	0x1030000270	Q	0x1030000590
vi07	0x1030000280	c2c23	0x1030000380??
vi08	0x1030000290	c2c24	0x1030000390??
vi09	0x10300002A0	c2c25	0x10300003A0??
vi10	0x10300002B0	TPC	0x10300003B0
vi11	0x10300002C0	CMSAR0	0x10300003C0??
vi12	0x10300002D0	FBRST	0x10300003D0
vi13	0x10300002E0	VPU-STAT	0x10300003E0??
vi14	0x10300002F0	CMSAR1	0x10300003F0??
vi15	0x1030000300	c2c30	0x1030000400??

VU1 Registers[edit | edit source]

Register	W	Z	Y	X	Register	W	Z	Y	X
vf00	0x104000000C	0x1040000008	0x1040000004	0x1040000000	vf17	0x104000011C	0x1040000118	0x1040000114	0x1040000110
vf01	0x104000001C	0x1040000018	0x1040000014	0x1040000010	vf18	0x104000012C	0x1040000128	0x1040000124	0x1040000120
vf02	0x104000002C	0x1040000028	0x1040000024	0x1040000020	vf19	0x104000013C	0x1040000138	0x1040000134	0x1040000130
vf03	0x104000003C	0x1040000038	0x1040000034	0x1040000030	vf20	0x104000014C	0x1040000148	0x1040000144	0x1040000140
vf04	0x104000004C	0x1040000048	0x1040000044	0x1040000040	vf21	0x104000015C	0x1040000158	0x1040000154	0x1040000150
vf05	0x104000005C	0x1040000058	0x1040000054	0x1040000050	vf22	0x104000016C	0x1040000168	0x1040000164	0x1040000160
vf06	0x104000006C	0x1040000068	0x1040000064	0x1040000060	vf23	0x104000017C	0x1040000178	0x1040000174	0x1040000170
vf07	0x104000007C	0x1040000078	0x1040000074	0x1040000070	vf24	0x104000018C	0x1040000188	0x1040000184	0x1040000180
vf08	0x104000008C	0x1040000088	0x1040000084	0x1040000080	vf25	0x104000019C	0x1040000198	0x1040000194	0x1040000190
vf09	0x104000009C	0x1040000098	0x1040000094	0x1040000090	vf26	0x10400001AC	0x10400001A8	0x10400001A4	0x10400001A0
vf10	0x10400000AC	0x10400000A8	0x10400000A4	0x10400000A0	vf27	0x10400001BC	0x10400001B8	0x10400001B4	0x10400001B0
vf11	0x10400000BC	0x10400000B8	0x10400000B4	0x10400000B0	vf28	0x10400001CC	0x10400001C8	0x10400001C4	0x10400001C0
vf12	0x10400000CC	0x10400000C8	0x10400000C4	0x10400000C0	vf29	0x10400001DC	0x10400001D8	0x10400001D4	0x10400001D0
vf13	0x10400000DC	0x10400000D8	0x10400000D4	0x10400000D0	vf30	0x10400001EC	0x10400001E8	0x10400001E4	0x10400001E0
vf14	0x10400000EC	0x10400000E8	0x10400000E4	0x10400000E0	vf31	0x10400001FC	0x10400001F8	0x10400001F4	0x10400001F0
vf15	0x10400000FC	0x10400000F8	0x10400000F4	0x10400000F0	ACC	0x104000020C	0x1040000208	0x1040000204	0x1040000200
vf16	0x104000010C	0x1040000108	0x1040000104	0x1040000100

Register	Address	Register	Address
vi00	0x1040000210	vi16	0x1040000310??
vi01	0x1040000220	vi17	0x1040000320??
vi02	0x1040000230	vi18	0x1040000330??
vi03	0x1040000240	vi19	0x1040000340??
vi04	0x1040000250	vi20	0x1040000350??
vi05	0x1040000260	vi21	0x1040000360
vi06	0x1040000270	vi22	0x1040000370??
vi07	0x1040000280	vi23	0x1040000380??
vi08	0x1040000290	vi24	0x1040000390??
vi09	0x10400002A0	vi25	0x10400003A0??
vi10	0x10400002B0	vi26	0x10400003B0
vi11	0x10400002C0	vi27	0x10400003C0??
vi12	0x10400002D0	vi28	0x10400003D0
vi13	0x10400002E0	vi29	0x10400003E0??
vi14	0x10400002F0	vi30	0x10400003F0??
vi15	0x1040000300	vi31	0x1040000400??

Open CL and Floats[edit | edit source]

PS4 native Floating point support and OpenCL info, for both CPU and GPU. The understanding of floating point conversion is very important for emulating the PS2.
Info found below came from this: gist
There you can find more info about PS4's OpenCL.

CPU[edit | edit source]

Info	Value
Device Name	CXD90026AG - DG1002FGF84HT
Device Vendor	AuthenticAMD
Device Vendor ID	0x1022
Device OpenCL C Version	OpenCL C 1.2 pocl
Device Type	CPU
Max compute units	8
Max work item dimensions	3
Max work item sizes	4096x4096x4096
Max work group size	4096
Preferred work group size multiple	8
Half-precision Floating-point support	(n/a)
Single-precision Floating-point support	(core)
Denormals	Yes
Infinity and NANs	Yes
Round to nearest	Yes
Round to zero	Yes
Round to infinity	Yes
IEEE754-2008 fused multiply-add	No
Support is emulated in software	No
Correctly-rounded divide and sqrt operations	Yes
Double-precision Floating-point support	(cl_khr_fp64)
Denormals	Yes
Infinity and NANs	Yes
Round to nearest	Yes
Round to zero	Yes
Round to infinity	Yes
IEEE754-2008 fused multiply-add	Yes
Support is emulated in software	No
Execution capabilities
Run OpenCL kernels	Yes
Run native kernels	Yes
SPIR versions	1.2
Device Extensions	cl_khr_byte_addressable_store cl_khr_global_int32_base_atomics cl_khr_global_int32_extended_atomics cl_khr_local_int32_base_atomics cl_khr_local_int32_extended_atomics cl_khr_3d_image_writes cl_khr_spir cl_khr_fp64 cl_khr_int64_base_atomics cl_khr_int64_extended_atomics

GPU[edit | edit source]

Info	Values
Device Name	AMD LIVERPOOL
Device Vendor	AMD
Device Vendor ID	0x1002
Device Version	OpenCL 1.1
Device OpenCL C Version	OpenCL C 1.1
Device Type	GPU
Max compute units	18
Max work item dimensions	3
Max work item sizes	256x256x256
Max work group size	256
Compiler Available	Yes
Preferred work group size multiple	64
Half-precision Floating-point support	(cl_khr_fp16)
Denormals	No
Infinity and NANs	Yes
Round to nearest	Yes
Round to zero	No
Round to infinity	No
IEEE754-2008 fused multiply-add	No
Support is emulated in software	No
Single-precision Floating-point support	(core)
Denormals	No
Infinity and NANs	Yes
Round to nearest	Yes
Round to zero	No
Round to infinity	No
IEEE754-2008 fused multiply-add	No
Support is emulated in software	No
Correctly-rounded divide and sqrt operations	No
Double-precision Floating-point support	(cl_khr_fp64)
Denormals	Yes
Infinity and NANs	Yes
Round to nearest	Yes
Round to zero	Yes
Round to infinity	Yes
IEEE754-2008 fused multiply-add	Yes
Support is emulated in software	No
Execution capabilities
Run OpenCL kernels	Yes
Run native kernels	No
Device Extensions	cl_khr_byte_addressable_store cl_khr_byte_addressable_store cl_khr_global_int32_base_atomics cl_khr_global_int32_extended_atomics cl_khr_local_int32_base_atomics cl_khr_local_int32_extended_atomics cl_khr_int64_base_atomics cl_khr_int64_extended_atomics cl_khr_fp64 cl_khr_fp16

PS3 Config support[edit | edit source]

The emulator supports configurations in the format known from ps2_netemu/ps2classic that came from the PS3. This feature was
officially used in Arc the Lad Twilight of the Spirits ps2-ps4 classic.
To enable ps3 style config add this to config-emu-ps4.txt:

--lopnor-config=1
--ps2-title-id=TITLE-ID

Config file need to be in folder ...'''/patches/{TITLE-ID}/''' and file need to have name '''{TITLE-ID}_lopnor.cfgbin'''. title id need to be in XXXX-YYYYY format (ex. SLUS-12345). 
Example path: /patches/SLUS-12345/SLUS-12345_lopnor.cfgbin
Tester confirmed that configs work like that. We don't even need to edit them, they work as is.

Please keep in mind that not all commands are recognized, only 0x01 (can depend upon emu revision), 0x09, 0x0A, 0x0B, 0x0F, 0x10, 0x26, 0x27, 0x42.
For example Rayman 3 config Does not work due to the command being unsupported
Command 0x07 is NOT recognized, but can be manually translated to cli config (to: --vu-xgkick-delay=value).
Same goes for 0x11 (--vu0-accurate-addsub-range can be used).

Configs explained in text form: https://github.com/Zarh/Get_CONFIG/blob/master/log.txt
More about PS3 style configs/commands: https://www.psdevwiki.com/ps3/PS2_Emulation#Game_CONFIG
Log from loading that kind of config: https://pastebin.com/ZpUyU8DE

Known issues[edit | edit source]

Issue	Games affected	Solution	Description
Inaccurate GIF timing	The Matrix: Path of Neo, Tenchu - Fatal Shadows, Genji dawn of the samurai, Batman begins, Dragon ball z budokai tenkaichi 1, possibly many more!	LUA patches or hooking schedulerdelayevent on a troublesome offset
No support for EE Cache	Ice Age 2, DOA2: Extreme, Nascar 2009, Barnyard, Others	Lua patches to the EE memory and picking the right emulator	It's not a ps4 issue per say since these issues are also encountered by Pcsx2. but Pcsx2 does have support for EE cache, though it doesn't use it to fix these games because emulating EE cache is extremely slow. so that's why the Pcsx2 team decided to use pnach patches to fix this issue.
Missing COP2 pipeline emulation.	other games affected by COP2 timing	Rearranging code through lua patches.	While COP2 is part of EE, in terms of emulation it's separate processor that can run on its own. So some operations take some time while EE still mind own business. Some games abuse that fact and do own thing knowing that COP2 calculation take expected number of cycles. On this emu every COP2 opcode is instant, which break games that expect it to take some time.
VU0 is not running in sync with EE core	24 The Game, ATV Quad Power Racing 2, Ghosthunter, Rayman Arena, Rayman 3, Largo winch, Ratchet and clank games. All games using M-bit.	EE hook AdvanceClock or fastforwardclock commands on affected addresses to push VU0 ahead while stalling EE, patches to rearrange code. Most of the time it will be CTC2/QMTC2 instructions with interlock that are affected.	Emulator kickstart VU0 for 256 cycles, while report 512 cycles passed. Yup, we are out of sync right from the start of VU0 mpg because people working for $ony don't know that VU0 run at EE MHz, not at EE bus MHz. Not to mention that 256 cycles kickstart is too much even on correct speed. Later things just got worse. This issue can be partially replicated on Pcsx2 if you overclock the EE by +3
FPU/VU math inaccuracies.	Koun, Tony hawk games, Devil may cry 3, Gun, TY the Tasmanian Tiger 3, Beyond Good & Evil, MTX Mototrax, Max payne, Bully, Jackie chan adventures, Wild arms 3, Pac-man World 3, Gran turismo 4, Many others	Lua patches to the EE memory, accurate math commands.	PS2 use really obscure floating point math, only one guard bit is used in calculations. PCSX2 hack it with different rounding modes, emu on ps4 fix it with soft floats, usually applied per offset. Sometime with patches directly to affected code (THPS engine). Worth to note that pcsx2 by default apply "accurate add/sub" for every single FPU opcode, and only to fpu opcodes. That why sometimes we need to use accurate add/sub while pcsx2 is happy at default settings.
M-Bit support is broken	Every game that uses M-Bit. Totally Spies! Totally Party, Mike Tyson Heavyweight Boxing, My Street, Crash Twinsanity, Marvel Nemesis, Panzer Elite Action - Fields of Glory, Super Monkey Ball Adventure, most Eko Software games, and many more. [2]	Lua patches to the EE memory	While emulator respect m-bit, way that VU0 work on it make it broken most of times (check "VU0 is not running in sync with EE core" issue).
Wrong disc read speed for some games	Shadowman(Textures), God of war (Music), Ratchet and clank size matters (Music), every game that's listed to require CDVD_READ_DELAY. and many other affected games	Try your luck with IOP and CDVD CLI commands.	Also known in sony's bios as CDVD_READ_DELAY
In-accurate VU0/VU1/COP2 emulation	Sly cooper games, Crash twinsanity, Crazy frog racer, Rayman 3, Klonoa 2, others.	Choosing a VU accurate emulator such as Roguev1 or Kof2000 with the right clamping commands	The issue leads to SPS and graphical issues and sometimes freezing.
Multitap doesn't support all games	Urban reign, others	Lua patches	Emulator expect PS4 to be able to use 8 controllers (well, who doesn't? Even PS1 can do it...). That cause all kind of mess with controller detection when game expect multitap in second port.
DMA writes when busy signal is engaged	Ratchet and clank games, Metal gear solid 2, others	None yet	AKA eetiminghack
VIF1 runs too fast	Urban reign, Avatar, Parappa 2, Eternal Poison, Soul Calibur 2, Soul Calibur 3, Others	Using LUA's SchedulerDelayEvent command or Using CLI'S vif1-instant-xfer command	Sony wanted to improve the performance, which is the reason VIF1 is instant. The lua's command can be customizable to set the delay period, the cli can't, therefore lua's command is much more compatible
Reading VU TPC registers returns wrong values	Street Fighter 3 EX(VU0), R: Racing Revolution(VU0), Spiderman 3 (VU0, in T-Bit handler...), Edge of Reality games(VU1)	Patches in lua.	In this emu TPC stores full addresses, which is wrong. Real hardware keep there addr >> 3. Worth noting that EoR games read VU1 TPC in a nasty way, accessing 0x43A0(VU1 TPC) from COP2 code.
VIF command interrupts handled before VIFn_CODE is updated.	Onimusha Blade Warriors	Fixed by patch in intr handler.	This is very specific case because Onimusha check VIFn_CODE register in interrupt handler and do nothing if code is not 0x80 (NOP with I). But VIFn_CODE seems to be updated after interrupt is handled. This practically makes everything out of sync later as interrupts are happening, but handler does nothing about them.
IPU emulation inaccuracy	Burnout 3, Tony Hawk's Underground, Onimusha Dawn of Dreams	?
CDVD register 0x1F402038 (KeysValid) return wrong result.	Every "SCCS" game	Patches in lua.	Likely specific to NTSC-C releases, because that region uses special SDK. This issue makes cdvdman become stuck on any request because it thinks that the cdvd key is invalid.
Lack of CDVD error handling	Demon Chaos, Spyro A new Beginning, Silent Hill 2 Black Ribbon, games from pcsx2 #5174 PR.	Patches in lua if needed.	One correctly supported error is SCECdErABRT, rest is just not handled or what's worst trigger emu panic on purpose like SCECdErILI (but not for 0 sector request - Spyro). Some affected games can still work if error is just accidental and not checked by game code.

PS2 Bios[edit | edit source]

Description[edit | edit source]

The PS2 bios is the file PS20220WD20050620.crack included in every PS2 game .pkg. It is the same BIOS used by Sony in PS3's ps2_netemu.self. The lack of many X modules here means that homebrew compatibility is limited, as many of those need to be recompiled to use non X versions of modules, or need to load open source versions of them through MC/CDVD. An important non X module that is missing is LIBSD, therefore, homebrews that require it will likely fail to boot, or cause an error.
Bios is known to blacklist some titles, and refuse to boot them. This includes all titles with 00000000 000000A0 flag from that list (click here)

More about the bios

The version of the bios seems to be developement v2.20 from the Japanese region (22/01/2007), and is not limited to booting only NTSC-J games.
Emulator not support USB peripherals, but this seems to be not limitation of BIOS, as it is used also in CECH C/E PS3 consoles. 
There are signs that different bios version exist, named PS20190AC20030623_nordram_miniOSD.bin. This bios has included handy extensions for debugging, and can debug print with "debug osd verbosity" from CLI set to "verbose". The most noticeable difference for both bios files seems to be the special RDRAM module.

While PS3 patches its bios to preferred regions, PS4 uses a so called CallHook which is better known for pcsx2 users as fastboot. No need to describe this patch here, just look at PCSX2 fastboot code. It's the same code, but the only difference is that PS4 emus don't have patches for different bios revisions.

Bios file information:

File name: PS20220WD20050620.crack
MD5: 83AD2B530C9C102A561BA1CDC6D996D5

Files inside ROM image[edit | edit source]

File	Offset in exported bin	Description	File type (exportable)
RESET	0x00	Bootstrap code for the EE and IOP.	BIN
ROMDIR	0x2780	The ROMDIR part of the ROM image, which provides information on the location and name of files contained in the image.	BIN
EXTINFO	0x2CC0	Contains the "EXTINFO" for all files in the ROM image.	BIN
SBIN	0x3330	Seems to be the pad controller library for the PS1 monitor.	BIN
LOGO	0xA2D0	PS1 logo?	BIN
IOPBTCONF	00x1EA20	Boot configuration file for the IOP, during the final phase of the IOP reset. If no UDNL module is specified, the IOP will only have a single IOP reset in the reboot process, with the modules listed in IOPBTCONF.	BIN
IOPBTCON2	0x1EB10	Boot configuration file for the IOP, for the first phase of the IOP reset (before UDNL is loaded).	BIN
SYSMEM	0x1EBE0	System Memory Manager.	ELF
LOADCORE	0x1FE00	The core of IOP module loading. Provides the lowest level of IOP module loading functions. Also handles the startup of the IOP.	ELF
EXCEPMAN	0x22380	Exception manager.	ELF
INTRMANP	0x22F60	Interrupt Manager. According to wisi, it is for PS mode.	ELF
INTRMANI	0x24970	Interrupt Manager. According to wisi, it is for IOP mode.	ELF
SSBUSC	0x267B0	SSBUS Controller library. The SSBUS seems to be the bus that all peripherals get connected to. It seems to have the power to control the mapping of the device registers, as well as access timing.	ELF
TIMEMANP	0x26F20	Timer Manager (PS mode)	ELF
TIMEMANI	0x27B00	Timer Manager (IOP mode)	ELF
DMACMAN	0x28730	DMA Controller Manager.	ELF
SYSCLIB	0x2BE30	System C Library.	ELF
HEAPLIB	0x2E590	Memory HEAP LIBrary (i.e. thvpool, thfpool)	ELF
THREADLIB	0x2F290	Multi_Thread_Manager	ELF
VBLANK	0x38020	V-Blank management	ELF
IOMAN	0x38DB0	IO Manager	ELF
MODLOAD	0x3AD20	IOP module loader.	ELF
ROMDRV	0x3D070	ROM driver. Provides access to the boot ROM (rom0).	ELF
ADDDRV	0x3DF60	Adds support for the DVD ROM (rom1:), via ROMDRV.	ELF
STDIO	0x3D3C0	Standard I/O library.	ELF
SIFMAN	0x3EFB0	SIF manager.	ELF
SIFINIT	0x40550	Initializes the SIF.	ELF
EESYNC	0x40970	For synchronizing with the EE, at the end of IOP resets. EESYNC from DNAS images are evil; they also perform a memory wipe of the region from 0x00084000 to .0x00100000.	ELF
EENULL	0x40E10	The idle thread (id #0) module, in ps2 loaded to 0x00081FC0.	BIN
PS1ID	0x40E50	Only found in newer boot ROMs	BIN
LIBFI	0x40E60	Not present in the boot ROM of the SCPH-10000 and SCPH-15000.	BIN
PS1VERJ	0x40F50		BIN
PS1VERA	0x40F60		BIN
PS1VERE	0x40F70		BIN
PS1VERC	0x40F80		BIN
PS1VERH	0x40F90		BIN
OSDSYS	0x40FA0	The browser	BIN
-	0x40FB0		BIN
RDRAM	0x41000	Provides a RDRAM test for the EE at power-on. This is run from RESET.	BIN
EELOADCNF	0x43D50	Contains the IOP boot configuration file for EELOAD.	BIN
SIFCMD	0x43F00	SIF command module. Contains the SIF command and SIF RPC functions.	ELF
REBOOT	0x46140	The reboot service. Receives IOP reset packets from the EE, from across the SIF.	ELF
LOADFILE	0x46910	The RPC server for MODLOAD	ELF
EECONF	0x49070	Loads part of the system configuration from the MECHACON EEPROM. Also configures and resets some peripherals, depending on the model version. In slimlines, and possibly on PS3 EECONF will also load the MAC address.	ELF
-	0x49FF0		BIN
IOPBOOT	0x4A000	IOP bootup program	BIN
-	0x4B160		BIN
TBIN	0x4B800	The PS1 monitor program. Seems to be the PS1 BIOS. This is started by RESET, when the IOP is in PS1 mode.	BIN
XSHA1	0x59770	sha1 - this only present in PS3. It is used as additional antipiracy check. It seems that it calculate disc main elf checksum and compares it with some database. Config related?	ELF
XLOADFILE	0x5A740	Updated module	ELF
SIO2MAN	0x5D7F0	SIO2 manager. Provides access to the SIO2 interface.	ELF
-	0x5F420		BIN
MCSERV	0x61340	RPC server for MCMAN.	ELF
-	0x63040		BIN
KROMG	0x64000		BIN
-	0x65CC0		BIN
KROM	0x66000	Kanji ROM? Not sure where this is used.	BIN
-	0x7FE70		BIN
ROMVER	0x7FF00	ROM version.	BIN
-	0x7FF10		BIN
VERSTR	0x7FF30	Version string. Probably PS1 ROM will use this because that this string is also present in PlayStation consoles.	BIN
-	0x7FF90		BIN
ROMGSCRT	0x80000		BIN
NCDVDMAN	0x82D30	It seems to be a heavily stripped-down CDVDMAN module, with no support for some S-command functions like sceCdRI.	ELF
SECRMAN	0x8F770	Security Manager. Signing is NOT done with the one in ROM, but with a special version that comes with the utility discs. Looks like PS3 units have a different SECRMAN module from retail sets, similar to PS2 TOOL one.	ELF
MCMAN	0x93C30	Memory Card Manager.	ELF
PADMAN	0xA30C0	Pad manager.	ELF
CDVDMAN	0xAC810	The CD/DVD manager.	ELF
CDVDFSV	0xB4BC0	The RPC server for CDVDMAN.	ELF
FILEIO	0xBCF80	RPC server for IOMAN. Sony has greatly changed the semantics and design of FILEIO after some point. Connecting an old FILEIO EE RPC client to a newer server will result in a severe IOP crash.	ELF
CLEARSPU	0xBF080	Seems to clear/reset the SPU, but is known to cause crashes under some conditions. Not sure if it's buggy or not. Only used by the OSDSYS of the SCPH-10000 and SCPH-15000, probably retained for backward-compatibility.	ELF
UDNL	0xC0CC0	It is responsible for selecting the modules and starting the IOP, during the final phase of the IOP reset where the desired modules are to be loaded into the IOP.	ELF
IGREETING	0xC2BC0	Displays boot information (i.e. IOP boot type, EBOOTP, IBOOTP, switch positions for DSW602 and the type of DSW602 board installed	ELF
EELOAD	0xC3C20	The EE ELF loader, which is loaded by LoadExecPS2() to 0x00082000 in PS2 for loading ELFs.	BIN
XCDVDMAN	0xD2DA0	cdvd_driver - Updated module	ELF
XCDVDFSV	0xE1B30	cdvd_ee_driver - Updated module	ELF
OSDSND	0xEFF60	OSD sound library. This is actually the tentative sound driver, which is called "librspu2" in the Sony SDK.	ELF
PS2LOGO	0x11ABB0	Displays the PlayStation 2 logo from the inserted disc. For newer consoles, if the logo cannot be decrypted properly, it will fall back to the browser. Not actually required to boot games, but the Sony OSDSYS boots PS2 games through this program.	ELF
XPARAM2	0x137500	File store per title settings for IOP emulation (XPARAM available also in real PS2 since 750XX where Deckard powerPC was introduced)	ELF
OSDSYS	0x139A00	The browser	BIN
PIOPRP	0x177880	Present in the PS3 ps2_(gx/soft/net)emu; contains version 3.1.0 of the IOP software (compared to version 1.3.4 on the root).	BIN
KERNEL	0x1BB7E0	The EE kernel	BIN

Description source: https://gist.github.com/uyjulian/25291080f083987d3f3c134f593483c5

Game_ID/DiscID in PS20220WD20050620.crack[edit | edit source]

There are 193 titleIDs listed inside XPARAM2.ELF file of PS2 Bios included in PS20220WD20050620.crack. XPARAM2.ELF is called by OSDSYS, then ID check is performed. If titleID match to one of included in the table, different IOP emulation settings are applied. This include blacklisting for some specific titles. 

Original PS2 bios from models with emulated IOP, include similar list file called XPARAM.ELF. Title IDs there are not the same, although some of them exist on both lists.

Command	Name
0x00	TITLE_MASK
0x01	SIO2_MASK
0x02	DEV9_MASK
0x03	USB_MASK
0x04	SIF_DMA_SYNC
0x05	SIF_DMA_LOAD
0x06	DMAC_CH10_INT_DELAY
0x07	MECHA_RECOGTIME
0x08	CPU_DELAY
0x09	DEV5_INT_SPEED
0x0A	CDVD_READ_DELAY
0x0B	SPU2_BEHAVIOR

ID	Title	Command	Value	Remarks
PBPX_952.01	DVD Utility Disc Version 1.00	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.02	DVD Utility Disc Version 1.01	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.03	DVD Utility Disc Version 1.01	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.06	DVD Player (Version 2.01)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.07	DVD Player (Version 2.10)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.08	DVD Player (Version 2.10)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.09	DVD Player (Version 2.10)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.10	DVD Utility Disc Version 2.10	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.11	DVD Utility Disc Version 1.00	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.21	DVD Player (Version 2.12)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.22	DVD Player (Version 2.14)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.24	DVD Player (Version 2.16)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.28		0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.35		0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_952.39	Online Start Up Disc v3.0	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_955.01	Linux for PS2 Beta Release 1	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_955.07	Playstation 2 Linux Runtime Environment v1.0 (Disc 1)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_955.09	Linux for PS2 Release 1.0	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PBPX_955.18		0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PDPX_991.09	DVD Player (Version 3.04)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PSXC_002.01	PSX Update Disc 1.10	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PSXC_002.02	PSX Update Disc 1.20	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PSXC_002.03	PSX Update Disc 1.31	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
PTPX_970.38		0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
SCAJ_201.25	Tekken 5	0x0B	0x40000000	SPU2_BEHAVIOR
SCAJ_201.26	Tekken 5	0x0B	0x40000000	SPU2_BEHAVIOR
SCES_532.02	Tekken 5	0x0B	0x40000000	SPU2_BEHAVIOR
SCKA_200.49	Tekken 5	0x0B	0x40000000	SPU2_BEHAVIOR
SCPM_621.15		0x00	0x1000000	TITLE_MASK
SCPM_621.16		0x00	0x1000000	TITLE_MASK
SCPN_601.01	PlayStation BB Navigator (Version 0.10)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
SCPN_601.30	PlayStation BB Navigator (Version 0.20)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
SCPN_601.40	PlayStation BB Navigator (Version 0.30)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
SCPN_601.50	PlayStation BB Navigator (Version 0.31)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
SCPN_601.60	PlayStation BB Navigator (Version 0.32)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
SCPS_110.01	I.Q. Remix	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
SCPS_110.10	Yoake no Mariko (Performance Pack Edition)	0x01	0x1800	SIO2_MASK
SCPS_110.18	Yoake no Mariko	0x01	0x1800	SIO2_MASK
SCPS_110.21	Yoake no Mariko 2nd Act (Limited Edition)	0x01	0x1800	SIO2_MASK
SCPS_110.22	Yoake no Mariko 2nd Act	0x01	0x1800	SIO2_MASK
SCPS_150.38	Lifeline	0x0A	0x80300	CDVD_READ_DELAY
SCPS_150.39	Lifeline	0x0A	0x80300	CDVD_READ_DELAY
SCPS_170.01	Gran Turismo 4	0x0B	0x10000000	SPU2_BEHAVIOR
SCPS_175.01	Linux (for PlayStation2) Release 1.0	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
SCPS_200.39		0x00	0x4000000	TITLE_MASK
SCUS_971.67	PaRappa the Rapper 2	0x04	0x2000	SIF_DMA_SYNC
SCUS_972.69	Final Fantasy XI [Disc 2]	0x02	0xB	DEV9_MASK
SLES_500.48	Donald Duck: Quack Attack	0x01	0x800	SIO2_MASK
SLES_500.62	Orphen: Scion of Sorcery	0x08	0xC1C	CPU_DELAY
SLES_503.64	City Crisis	0x0A	0x80BB8	CDVD_READ_DELAY
SLES_504.46	Shadow Man 2: The Second Coming	0x0A	0x80600	CDVD_READ_DELAY
SLES_505.40	Simpsons: Road Rage	0x01	0x800	SIO2_MASK
SLES_506.08	Shadow Man 2: The Second Coming	0x0A	0x80600	CDVD_READ_DELAY
SLES_506.28	Simpsons: Road Rage	0x01	0x800	SIO2_MASK
SLES_507.28	Tiger Woods PGA Tour 2002	0x0A	0x803E8	CDVD_READ_DELAY
SLES_507.29		0x0A	0x803E8	CDVD_READ_DELAY
SLES_512.82	Tiger Woods PGA Tour 2003	0x0A	0x803E8	CDVD_READ_DELAY
SLES_514.79	Def Jam Vendetta	0x01	0x802	SIO2_MASK
SLES_518.41	SpyHunter 2	0x01	0x800	SIO2_MASK
SLES_518.44	Time Crisis 3	0x01	0x800	SIO2_MASK
SLES_519.97	SWAT: Global Strike Team	0x01	0x800	SIO2_MASK
SLES_520.97	SWAT: Global Strike Force	0x01	0x800	SIO2_MASK
SLES_530.37	Super Monkey Ball Deluxe	0x01	0x802	SIO2_MASK
SLES_536.68	Micro Machines v4	0x01	0x801	SIO2_MASK
SLES_537.55	Castlevania: Curse of Darkness	0x04	0x10	SIF_DMA_SYNC
SLES_537.96	FIFA Street 2	0x01	0x1800	SIO2_MASK
SLPM_620.42	Kurogane no Houkou: Warship Commander	0x01	0x3000	SIO2_MASK
SLPM_620.62	Gitaroo Man One	0x0A	0x80540	CDVD_READ_DELAY
SLPM_621.05	Taikou Risshiden IV	0x09	0x2B47000A	DEV5_INT_SPEED
SLPM_621.24	Ready 2 Rumble Boxing: Round 2	0x08	0x1388	CPU_DELAY
SLPM_621.25	Gauntlet: Dark Legacy	0x08	0xC1C	CPU_DELAY
SLPM_621.25	Gauntlet: Dark Legacy	0x09	0x2B470005	DEV5_INT_SPEED
SLPM_621.35	Final Fantasy: XI (Beta Version)	0x00	0xA0000000	TITLE_MASK, 0xA0000000 = Blacklist, boot after removing flag
SLPM_621.54	DDRMAX Dance Dance Revolution 6thMix	0x08	0x1A5E	CPU_DELAY
SLPM_622.39	Supercar Street Challenge	0x0A	0x80300	CDVD_READ_DELAY
SLPM_623.69	Karaoke Revolution: J-Pop Vol.1	0x08	0x1388	CPU_DELAY
SLPM_623.79	Karaoke Revolution: J-Pop Vol.2	0x08	0x1388	CPU_DELAY
SLPM_623.80	Karaoke Revolution: J-Pop Vol.3	0x08	0x1388	CPU_DELAY
SLPM_623.81	Karaoke Revolution: J-Pop Vol.4	0x08	0x1388	CPU_DELAY
SLPM_623.82	Karaoke Revolution: Love & Ballad	0x08	0x1388	CPU_DELAY
SLPM_623.83	Karaoke Revolution: Night Selection 2003	0x08	0x1388	CPU_DELAY
SLPM_624.14	Karaoke Revolution: Dreams & Memories	0x08	0x1388	CPU_DELAY
SLPM_624.37	Suisui Sweet: Amai Ai no Mitsukekata	0x0B	0x40000000	SPU2_BEHAVIOR
SLPM_624.50	Karaoke Revolution: Anime Song Selection	0x08	0x1388	CPU_DELAY
SLPM_624.51	Karaoke Revolution: J-Pop Vol.5	0x08	0x1388	CPU_DELAY
SLPM_624.54	Karaoke Revolution: J-Pop Vol.6	0x08	0x1388	CPU_DELAY
SLPM_624.55	Karaoke Revolution: J-Pop Vol.7	0x08	0x1388	CPU_DELAY
SLPM_624.56	Karaoke Revolution: J-Pop Vol.8	0x08	0x1388	CPU_DELAY
SLPM_624.57	Karaoke Revolution: Snow & Party	0x08	0x1388	CPU_DELAY
SLPM_624.64	Pop'n Taisen Pazurudame Online	0x08	0x1F40	CPU_DELAY
SLPM_624.79	Karaoke Revolution: J-Pop Vol.9	0x08	0x1388	CPU_DELAY
SLPM_624.91	Mega Man: The Power Battle	0x04	0x2000	SIF_DMA_SYNC
SLPM_624.92	Karaoke Revolution: Kids Song Selection	0x08	0x1388	CPU_DELAY
SLPM_625.28	Karaoke Revolution: Kazoku Idol Sengen (Bundle Edition)	0x08	0x1388	CPU_DELAY
SLPM_625.29	Karaoke Revolution: Kazoku Idol Sengen	0x08	0x1388	CPU_DELAY
SLPM_650.86	A Visual Mix: Ayumi Hamasaki Dome Tour 2001 (Disc 1)	0x08	0x1450	CPU_DELAY
SLPM_650.87	A Visual Mix: Ayumi Hamasaki Dome Tour 2001 (Disc 2)	0x08	0x1450	CPU_DELAY
SLPM_650.90	Spy Hunter	0x01	0x1800	SIO2_MASK
SLPM_651.97	Nobunaga's Ambition Online	0x02	0xB	DEV9_MASK
SLPM_652.09	Star Ocean: Till the End of Time	0x0B	0x20014	SPU2_BEHAVIOR
SLPM_654.38	Star Ocean: Till the End of Time (Director's Cut) (Disc 1)	0x0B	0x20014	SPU2_BEHAVIOR
SLPM_654.39	Star Ocean: Till the End of Time (Director's Cut) (Disc 2)	0x0B	0x20014	SPU2_BEHAVIOR
SLPM_654.88	Grand Theft Auto: Vice City	0x0A	0x300	CDVD_READ_DELAY
SLPM_654.88	Grand Theft Auto: Vice City	0x09	0x36000200	DEV5_INT_SPEED
SLPM_656.33	I Love Baseball: Pro Yakyu wo Koyonaku	0x08	0xFA0	CPU_DELAY
SLPM_656.98	Love Songs: ADV Futaba Riho 14-sai Natsu	0x0A	0x80380	CDVD_READ_DELAY
SLPM_657.05	Final Fantasy XI: Chains of Promathia (Expansion Disc)	0x02	0xB	DEV9_MASK
SLPM_657.06	Final Fantasy XI: Chains of Promathia (All-In-One Edition)	0x02	0xB	DEV9_MASK
SLPM_657.19	Burnout 3: Takedown	0x01	0x1C00	SIO2_MASK
SLPM_657.83	Nobunaga no Yabou Online: Tappi no Shou	0x02	0xB	DEV9_MASK
SLPM_658.94	Winning Post 6: 2005 Version	0x01	0x2400	SIO2_MASK
SLPM_659.34	Maple Colors	0x0A	0x80300	CDVD_READ_DELAY
SLPM_659.53	Final Fantasy: XI (Entry Disc 2005)	0x02	0xB	DEV9_MASK
SLPM_659.84	Grand Theft Auto: San Andreas	0x0A	0x803E8	CDVD_READ_DELAY
SLPM_660.33	The Sword of Etheria	0x08	0xC1C	CPU_DELAY
SLPM_660.33	The Sword of Etheria	0x00	0x2000000	TITLE_MASK
SLPM_660.48	The Sword of Etheria	0x08	0xC1C	CPU_DELAY
SLPM_660.48	The Sword of Etheria	0x00	0x2000000	TITLE_MASK
SLPM_660.57	Taito Memories Vol.1	0x08	0xCE4	CPU_DELAY
SLPM_661.56	Marheaven: Arm Fight Dream	0x01	0x1800	SIO2_MASK
SLPM_661.75	Akumajo Dracula: Yami no Juin	0x08	0x60	CPU_DELAY
SLPM_661.75	Akumajo Dracula: Yami no Juin	0x0B	0x2001C	SPU2_BEHAVIOR
SLPM_663.93	Final Fantasy XI: Treasures of Aht Urhgan (All-In-One Edition)	0x0A	0x803E8	CDVD_READ_DELAY
SLPM_663.93	Final Fantasy XI: Treasures of Aht Urhgan (All-In-One Edition)	0x09	0x2B47000A	DEV5_INT_SPEED
SLPM_663.93	Final Fantasy XI: Treasures of Aht Urhgan (All-In-One Edition)	0x02	0xB	DEV9_MASK
SLPM_663.94	Final Fantasy XI: Treasures of Aht Urhgan	0x02	0xB	DEV9_MASK
SLPM_664.36	Aria the Natural	0x01	0x1800	SIO2_MASK
SLPM_664.36	Aria the Natural	0x00	0xA000000	TITLE_MASK
SLPM_665.39	Nobunaga no Yabou Online: Haten no Shou	0x02	0xB	DEV9_MASK
SLPM_665.58	Tomb Raider: Legend	0x08	0x3E8	CPU_DELAY
SLPM_665.74	Detective Evangelion	0x00	0x2000000	TITLE_MASK
SLPM_680.07	Karaoke Revolution (Trial)	0x08	0x1388	CPU_DELAY
SLPM_680.10		0x08	0x1388	CPU_DELAY
SLPS_200.08	Morita Shogi	0x08	0x1388	CPU_DELAY
SLPS_200.20	FIFA 2000 World Championship	0x04	0x2001	SIF_DMA_SYNC
SLPS_200.37	Go Go Golf	0x09	0x2B47000A	DEV5_INT_SPEED
SLPS_200.38	Grappler Baki: Baki Saidai no Tournament	0x08	0x1194	CPU_DELAY
SLPS_200.53	Tenshi no Present: Marle Oukoku Monogatari (Limited Edition)	0x0B	0x20000000	SPU2_BEHAVIOR
SLPS_200.66	Tenshi no Present: Marle Oukoku Monogatari	0x0B	0x20000000	SPU2_BEHAVIOR
SLPS_201.01	City Crisis	0x0A	0x80BB8	CDVD_READ_DELAY
SLPS_201.11	Magical Sports Pro Baseball 2001	0x09	0x2B47000A	DEV5_INT_SPEED
SLPS_201.72	Koushien: Konpeki no Sora	0x09	0x2B47000A	DEV5_INT_SPEED
SLPS_201.73	Hard Hitter 2	0x0A	0x80300	CDVD_READ_DELAY
SLPS_201.97	Surfing Air Show with RatBoy	0x09	0x2B47000A	DEV5_INT_SPEED
SLPS_201.99	F1 2002	0x0B	0x20005	SPU2_BEHAVIOR
SLPS_202.00	Final Fantasy XI	0x02	0xB	DEV9_MASK
SLPS_204.04	Rakushou! Pachi-Slot Sengen 2	0x0A	0x80300	CDVD_READ_DELAY
SLPS_204.29	Hissatsu Pachi-Slot Evolution: Ninja Hattori-Kun V	0x08	0x1B58	CPU_DELAY
SLPS_204.55	Simple 2000 Series Vol.94: The Aka-Champion - Come on Baby	0x0B	0x40000000	SPU2_BEHAVIOR
SLPS_250.08	Sorcerous Stabber Orphen	0x08	0xC1C	CPU_DELAY
SLPS_250.71	A Visual Mix: Ayumi Hamasaki Dome Tour 2001	0x08	0x1450	CPU_DELAY
SLPS_250.72	A Visual Mix: Ayumi Hamasaki Dome Tour 2001	0x08	0x1450	CPU_DELAY
SLPS_250.81	Saishuu Densha	0x0A	0x803E8	CDVD_READ_DELAY
SLPS_251.36	Kuon no Kizuna Sairin Mikotonori	0x0A	0x805DC	CDVD_READ_DELAY
SLPS_251.42	Tiger Woods PGA Tour 2002	0x0A	0x803E8	CDVD_READ_DELAY
SLPS_251.50	Only You	0x0B	0x40000000	SPU2_BEHAVIOR
SLPS_252.37	Only You	0x0B	0x40000000	SPU2_BEHAVIOR
SLPS_252.75	Def Jam: Vendetta	0x01	0x802	SIO2_MASK
SLPS_252.78	Memories Off: Mix	0x0A	0x80300	CDVD_READ_DELAY
SLPS_252.90	Time Crisis 3	0x01	0x800	SIO2_MASK
SLPS_253.15	One Piece: Grand Battle 3	0x01	0x1800	SIO2_MASK
SLPS_253.57	3-Nen B-Gumi Kinpachi Sensei: Densetsu no Kyoudan ni Tate!	0x01	0x1800	SIO2_MASK
SLPS_253.79	Tokyo Majin Gakuen: Kaihoujyou Kefurokou	0x0A	0x803E8	CDVD_READ_DELAY
SLPS_254.06	Hitman: Contracts	0x08	0xDAC	CPU_DELAY
SLPS_254.18	Ace Combat 5: The Unsung War	0x0A	0x500000	CDVD_READ_DELAY
SLPS_255.10	Tekken 5	0x0B	0x40000000	SPU2_BEHAVIOR
SLPS_255.85	Monster Farm 5: Circus Caravan	0x07	5	MECHA_RECOGTIME
SLPS_255.86	Tales of the Abyss	0x0A	0x803E8	CDVD_READ_DELAY
SLPS_256.04	Ar tonelico Qoga: Knell of Ar Ciel	0x00	0xA000000	TITLE_MASK
SLPS_256.67	Daito Giken Premium Pachi-Slot Collection: Yoshimune	0x01	0x1800	SIO2_MASK
SLPS_256.98	Fatal Fury Battle Archives Volume 2	0x00	0xA000000	TITLE_MASK
SLPS_257.08	The Familiar of Zero (Limited Edition)	0x0A	0x803E8	CDVD_READ_DELAY
SLPS_257.09	The Familiar of Zero	0x0A	0x803E8	CDVD_READ_DELAY
SLPS_257.21	HimeHibi - Princess Days	0x0B	0x8000000	SPU2_BEHAVIOR
SLPS_257.22	Routes PE (Limited Edition)	0x08	0x3E8	CPU_DELAY
SLPS_257.27	Routes PE	0x08	0x3E8	CPU_DELAY
SLPS_732.49	Ar tonelico Qoga: Knell of Ar Ciel (Platinum)	0x00	0xA000000	TITLE_MASK
SLUS_200.11	Orphen: Ocion of Sorcery	0x08	0x1388	CPU_DELAY
SLUS_200.11	Orphen: Ocion of Sorcery	0x09	0x8000010	DEV5_INT_SPEED
SLUS_200.77	Donald Duck: Go'in Quackers	0x01	0x800	SIO2_MASK
SLUS_202.74	City Crisis	0x0A	0x80BB8	CDVD_READ_DELAY
SLUS_203.05	Simpsons: Road Rage	0x01	0x800	SIO2_MASK
SLUS_203.64	Tiger Woods PGA Tour 2002	0x0A	0x803E8	CDVD_READ_DELAY
SLUS_204.13	Shadowman 2	0x0A	0x80600	CDVD_READ_DELAY
SLUS_204.33	SWAT: Global Strike Team	0x01	0x800	SIO2_MASK
SLUS_204.88	Star Ocean: Til the end of Time [Disc 1]	0x08	0x1388	CPU_DELAY
SLUS_205.72	Tiger Woods PGA Tour 2003	0x0A	0x803E8	CDVD_READ_DELAY
SLUS_205.90	Spyhunter 2	0x01	0x800	SIO2_MASK
SLUS_206.35	Muppets Party Cruise	0x01	0x801	SIO2_MASK
SLUS_206.39	Def Jam Vendetta	0x01	0x800	SIO2_MASK
SLUS_206.86	Splashdown: Rides Gone Wild	0x0A	0x80400	CDVD_READ_DELAY
SLUS_208.38	All-Star Baseball 2005	0x01	0x802	SIO2_MASK
SLUS_208.51	Ace Combat 5: The Unsung War	0x0A	0x500000	CDVD_READ_DELAY
SLUS_208.91	Star Ocean: Til the end of Time [Disc 2]	0x08	0x1388	CPU_DELAY
SLUS_209.18	Super Monkey Ball: Deluxe	0x01	0x800	SIO2_MASK
SLUS_210.59	Tekken 5	0x0B	0x40000000	SPU2_BEHAVIOR
SLUS_210.70	Final Fantasy XI: Chains of Promathia	0x02	0xB	DEV9_MASK
SLUS_210.89	Karaoke Revolution Vol.3	0x08	0x1388	CPU_DELAY
SLUS_213.31	Sonic Riders	0x01	0x800	SIO2_MASK
SLUS_213.39	Puzzle Challenge	0x01	0x800	SIO2_MASK
SLUS_214.04	Final Fantasy XI: Treasures of Aht Urhgan	0x02	0xB	DEV9_MASK
SLUS_214.52	Valkyrie Profile 2: Silmeria	0x08	0x1388	CPU_DELAY

Folder/File layout[edit | edit source]

Example: Max Payne Classic

├── config-emu-ps4.txt
├── docs
│   └── revision.h
├── eboot.bin
├── feature_data
│   └── SLES-50326_features.lua
├── formatted.card
├── image
│   └── disc01.iso
├── lua_include
│   ├── ee-cpr0-alias.lua
│   ├── ee-gpr-alias.lua
│   ├── ee-hwaddr.lua
│   ├── language.lua
│   ├── pad-and-key.lua
│   ├── ps2.lua
│   └── utils.lua
├── patches
│   └── SLES-50326_cli.conf
├── PS20220WD20050620.crack
├── ps2-emu-compiler.self
├── sce_companion_httpd
│   └── html
│       ├── BackCover.jpg
│       ├── base
│       │   ├── arrow_up.png
│       │   └── sprites.png
│       ├── css
│       │   ├── default-skin.png
│       │   └── styles.min.css
│       ├── index.html
│       ├── js
│       │   └── app.min.js
│       ├── large
│       │   ├── Box01.jpg
│       │   ├── Box04.jpg
│       │   ├── landscape
│       │   │   ├── Box01.jpg
│       │   │   ├── Box04.jpg
│       │   │   ├── Page01.jpg From 01 to 59
│       │   │   └── Page59.jpg
│       │   ├── Page01.jpg From 01 to 116
│       │   └── Page116.jpg
│       ├── medium
│       │   ├── Box01.jpg
│       │   ├── Box04.jpg
│       │   ├── landscape
│       │   │   ├── Box01.jpg
│       │   │   ├── Box04.jpg
│       │   │   ├── Page01.jpg From 01 to 59
│       │   │   └── Page59.jpg
│       │   ├── Page01.jpg from 01 to 116
│       │   └── Page116.jpg
│       ├── small
│       │   ├── Box01.jpg from 01 to 04
│       │   ├── Box04.jpg
│       │   ├── landscape
│       │   │   ├── Box01.jpg from 01 to 04
│       │   │   ├── Box04.jpg
│       │   │   ├── Page01.jpg From 01 to 59
│       │   │   └── Page59.jpg
│       │   ├── Page01.jpg From 01 to 116
│       │   └── Page116.jpg
│       └── thumbnails
│           ├── BoxThumb01.jpg
│           ├── BoxThumb04.jpg
│           ├── landscape
│           │   ├── BoxThumb01.jpg
│           │   ├── BoxThumb04.jpg
│           │   ├── Thumb01.jpg from 01 to 59
│           │   └── Thumb59.jpg
│           ├── Thumb01.jpg From 01 to 116
│           └── Thumb116.jpg
├── sce_module
│   ├── libc.prx
│   └── libSceFios2.prx
├── sce_sys
│   ├── about
│   │   └── right.sprx
│   └── keystone
└── trophy_data
    └── SLES-50326_trophies.lua

LUA include files[edit | edit source]

Files that some official pkgs use in order for the lua files to be separate.

pad-connect-type.lua


local PadConnectType = {}

PadConnectType.DS4				= 0
PadConnectType.HID              = 1		-- any 3rd party USB controller (fight stick, turbo controller, etc), always local.
PadConnectType.REMOTE_DS4       = 2		-- remote DS4 should behave just like regular DS4
PadConnectType.REMOTE_VITA      = 3		-- remote VITA lacks analog L2/R2

return PadConnectType

sprite.lua


local kFilterMode = {}
kFilterMode.Point                         		  = 0x00000000	-- < Sample the one texel nearest to the sample point.
kFilterMode.Bilinear                      		  = 0x00000001	-- < Sample the four texels nearest the sample point, and blend linearly.

local kWrapMode = {}
kWrapMode.Wrap                            		  = 0x00000000	-- < The integer portion of the input coordinate is discarded, and the fractional portion is used instead. <c>U=U-floorf(U);</c>
kWrapMode.Mirror                          		  = 0x00000001	-- < The input coordinate is "reflected" across the texture boundary. This reflection may occur multiple times until the coordinate falls within the <c>[0..1]</c> range. <c>U=isOdd(floorf(U)) ? 1-fracf(U) : fracf(U)</c>
kWrapMode.ClampLastTexel                  		  = 0x00000002	-- < The input coordinate is clamped to the range <c>[0..1]</c>. <c>U=max(0,min(1,U));</c>
kWrapMode.MirrorOnceLastTexel             		  = 0x00000003	-- < The input coordinate is reflected at most one time and then clamped to the range <c>[0..1]</c>. <c>U=abs(max(-1,min(1,U));</c>
kWrapMode.ClampHalfBorder                 		  = 0x00000004	-- < Similar to kWrapModeClampLastTexel, but if clamping is necessary, the output color will be the border color specified by the Sampler. For this mode, coordinates that are not within half a pixel of the border are considered clamped.
kWrapMode.MirrorOnceHalfBorder            		  = 0x00000005	-- < Similar to kWrapModeMirrorOnceLastTexel, but if clamping is necessary, the output color will be the border color specified by the Sampler. For this mode, coordinates that are not within half a pixel of the border are considered clamped.
kWrapMode.ClampBorder                     		  = 0x00000006	-- < Similar to kWrapModeClampLastTexel, but if clamping is necessary, the output color will be the border color specified by the Sampler. For this mode, coordinates that are outside the range <c>[0..1]</c> are considered clamped.
kWrapMode.MirrorOnceBorder                		  = 0x00000007	-- < Similar to kWrapModeMirrorOnceLastTexel, but if clamping is necessary, the output color will be the border color specified by the Sampler. For this mode, coordinates that are outside the range <c>[0..1]</c> are considered clamped.

local kBlendMultiplier = {}
kBlendMultiplier.Zero                             = 0x00000000  -- < Multiply the associated input by zero.
kBlendMultiplier.One                              = 0x00000001  -- < Multiply the associated input by one.
kBlendMultiplier.SrcColor                         = 0x00000002  -- < Multiply the associated input by the fragment color.
kBlendMultiplier.OneMinusSrcColor                 = 0x00000003  -- < Multiply the associated input by one minus the fragment color.
kBlendMultiplier.SrcAlpha                         = 0x00000004  -- < Multiply the associated input by the fragment alpha.
kBlendMultiplier.OneMinusSrcAlpha                 = 0x00000005  -- < Multiply the associated input by one minus the fragment alpha.
kBlendMultiplier.DestAlpha                        = 0x00000006  -- < Multiply the associated input by the render target alpha.
kBlendMultiplier.OneMinusDestAlpha                = 0x00000007  -- < Multiply the associated input by one minus the render target alpha.
kBlendMultiplier.DestColor                        = 0x00000008  -- < Multiply the associated input by the render target color.
kBlendMultiplier.OneMinusDestColor                = 0x00000009  -- < Multiply the associated input by one minus the render target color.
kBlendMultiplier.SrcAlphaSaturate                 = 0x0000000a  -- < Multiply the associated input by the minimum of 1 or fragment alpha.
kBlendMultiplier.ConstantColor                    = 0x0000000d  -- < Multiply the associated input by the constant color. @see DrawCommandBuffer::setBlendColor()
kBlendMultiplier.OneMinusConstantColor            = 0x0000000e  -- < Multiply the associated input by one minus the constant color. @see DrawCommandBuffer::setBlendColor()
kBlendMultiplier.Src1Color                        = 0x0000000f  -- < Multiply the associated input by a secondary fragment color.
kBlendMultiplier.InverseSrc1Color                 = 0x00000010  -- < Multiply the associated input by one minus a secondary fragment color.
kBlendMultiplier.Src1Alpha                        = 0x00000011  -- < Multiply the associated input by a secondary fragment alpha.
kBlendMultiplier.InverseSrc1Alpha                 = 0x00000012  -- < Multiply the associated input by one minus a secondary fragment alpha.
kBlendMultiplier.ConstantAlpha                    = 0x00000013  -- < Multiply the associated input by the constant color alpha. @see DrawCommandBuffer::setBlendColor()
kBlendMultiplier.OneMinusConstantAlpha            = 0x00000014  -- < Multiply the associated input by one minus the constant color alpha. @see DrawCommandBuffer::setBlendColor()

local kBlendFunc = {}
kBlendFunc.Add                        			  = 0x00000000  -- < The source value is added to the destination value.
kBlendFunc.Subtract                   			  = 0x00000001  -- < The destination value is subtracted from the source value.
kBlendFunc.Min                        			  = 0x00000002  -- < The minimum of the source and destination values is selected.
kBlendFunc.Max                        			  = 0x00000003  -- < The maximum of the source and destination values is selected.
kBlendFunc.ReverseSubtract            			  = 0x00000004  -- < The source value is subtracted from the destination value.

-- Default blending mode, ideal for typical alpha channel embedded into a PNG image.
blendDefaultEquation = {
	kBlendMultiplier.SrcAlpha,					-- src multiplier
	kBlendFunc.Add,		                        -- blend function
	kBlendMultiplier.OneMinusSrcAlpha,		    -- dest multiplier
}

blendConstFadeEquation = {
	kBlendMultiplier.ConstantAlpha,					-- src multiplier
	kBlendFunc.Add,		                  	 	    -- blend function
	kBlendMultiplier.OneMinusConstantAlpha,		    -- dest multiplier
}

return kFilterMode, kWrapMode, kBlendMultiplier, kBlendFunc

ee-cpr0-alias.lua

cpr = {}

cpr.index		= 0
cpr.random		= 1
cpr.entrylo0	= 2
cpr.entrylo1	= 3
cpr.context		= 4
cpr.pagemask	= 5
cpr.wired		= 6
cpr.badvaddr	= 8
cpr.count		= 9
cpr.entryhi		= 10
cpr.compare		= 11
cpr.status		= 12
cpr.cause		= 13
cpr.epc			= 14
cpr.prid		= 15
cpr.config		= 16
cpr.badpaddr	= 23
cpr.hwbk		= 24
cpr.pccr		= 25
cpr.taglo		= 28
cpr.taghi		= 29
cpr.errorepc	= 30

return cpr

ee-gpr-alias.lua


-- Recommended method to import this module:
--   local gpr = require("ee-gpr-alias")
-- 
-- Using the global 'lang' variable is depreciated.  This will change to a local-scope variable after
-- the depreciation period has expired in April 2016.

gpr = {}

gpr.zero = 0
gpr.at   = 1
gpr.v0   = 2
gpr.v1   = 3
gpr.a0   = 4
gpr.a1   = 5
gpr.a2   = 6
gpr.a3   = 7
gpr.t0   = 8
gpr.t1   = 9
gpr.t2   = 10
gpr.t3   = 11
gpr.t4   = 12
gpr.t5   = 13
gpr.t6   = 14
gpr.t7   = 15
gpr.s0   = 16
gpr.s1   = 17
gpr.s2   = 18
gpr.s3   = 19
gpr.s4   = 20
gpr.s5   = 21
gpr.s6   = 22
gpr.s7   = 23
gpr.t8   = 24
gpr.t9   = 25
gpr.k0   = 26
gpr.k1   = 27
gpr.gp   = 28
gpr.sp   = 29
gpr.fp   = 30
gpr.ra   = 31

return gpr

ee-hwaddr.lua

gif_hw  = {}
vif0_hw = {}
vif1_hw = {}

gif_hw.CHCR			= 0x1000A000
gif_hw.MADR			= 0x1000A010
gif_hw.QWC			= 0x1000A020
gif_hw.TADR			= 0x1000A030
gif_hw.ASR0			= 0x1000A040
gif_hw.ASR1			= 0x1000A050
gif_hw.SADR			= 0x1000A080

vif0_hw.CHCR		= 0x10008000
vif0_hw.MADR		= 0x10008010
vif0_hw.QWC			= 0x10008020
vif0_hw.TADR		= 0x10008030
vif0_hw.ASR0		= 0x10008040
vif0_hw.ASR1		= 0x10008050
vif0_hw.SADR		= 0x10008080

vif1_hw.CHCR		= 0x10009000
vif1_hw.MADR		= 0x10009010
vif1_hw.QWC			= 0x10009020
vif1_hw.TADR		= 0x10009030
vif1_hw.ASR0		= 0x10009040
vif1_hw.ASR1		= 0x10009050
vif1_hw.SADR		= 0x10009080

return gif_hw, vif0_hw, vif1_hw, nil

language.lua


-- Recommended method to import this module:
--   local lang = require("language")
-- 
-- Using the global 'lang' variable is depreciated.  This will change to a local-scope variable after
-- the depreciation period has expired in April 2016.

lang = {}

lang.japanese		= 0
lang.english		= 1
lang.french			= 2
lang.spanish		= 3
lang.german			= 4
lang.italian		= 5
lang.dutch			= 6
lang.portuguese		= 7
lang.russian		= 8
lang.korean			= 9
lang.chinese_traditional	= 10
lang.chinese_simplified		= 11
lang.finnish		= 12
lang.swedish		= 13
lang.danish			= 14
lang.norwegian		= 15
lang.polish			= 16
lang.portuguese_brazil	= 17
lang.english_gb		= 18
lang.turkish		= 19
lang.spanish_la		= 20
lang.arabic			= 21
lang.french_canada	= 22

return lang

pad-and-key.lua


pad = {}

-- Left Side
pad.LU	= 0x0010	-- Up
pad.LD	= 0x0040	-- Down
pad.LL	= 0x0080	-- Left
pad.LR	= 0x0020	-- Right

-- Right Side
pad.RU	= 0x1000	-- Up (Triangle)
pad.RD	= 0x4000	-- Down (Cross)
pad.RL	= 0x8000	-- Left (Square)
pad.RR	= 0x2000	-- Right (Circle)

-- aliases
pad.UP		= 0x0010	-- LU
pad.DOWN	= 0x0040	-- LD
pad.LEFT	= 0x0080	-- LL
pad.RIGHT	= 0x0020	-- LR
pad.TRIANGLE= 0x1000
pad.CROSS	= 0x4000
pad.SQUARE	= 0x8000
pad.CIRCLE	= 0x2000

pad.L1	= 0x0400
pad.L2	= 0x0100
pad.L3	= 0x0002

pad.R1	= 0x0800
pad.R2	= 0x0200
pad.R3	= 0x0004

pad.SELECT	= 0x0001
pad.START	= 0x0008

keyboard = {}

keyboard.ESCAPE		= 0x1000
keyboard.SLASH		= 0x1001
keyboard.SEPARATOR	= 0x1002	-- backslash or pipe (\|)
keyboard.BACKQUOTE	= 0x1003
keyboard.PAGEDOWN	= 0x1004
keyboard.PAGEUP		= 0x1005
keyboard.F1			= 0x1006
keyboard.F2			= 0x1007
keyboard.F3			= 0x1008
keyboard.F4			= 0x1009
keyboard.F5			= 0x100a
keyboard.F6			= 0x100b
keyboard.F7			= 0x100c
keyboard.F8			= 0x100d
keyboard.F9			= 0x100e
keyboard.F10		= 0x100f
keyboard.F11		= 0x1010
keyboard.F12		= 0x1011

ps2.lua


require("ee-gpr-alias")
require("utils")

MipsInsn = {}
MipsInsn.IsAddi			= function(insn) return (insn & 0xfc000000) == 0x20000000 end	-- addi rt,rs,simm
MipsInsn.IsAddiu		= function(insn) return (insn & 0xfc000000) == 0x24000000 end	-- addiu rt,rs,simm
MipsInsn.IsBeq			= function(insn) return (insn & 0xfc000000) == 0x10000000 end	-- beq rs,rt,off
MipsInsn.IsJ			= function(insn) return (insn & 0xfc000000) == 0x08000000 end	-- j target
MipsInsn.IsJal			= function(insn) return (insn & 0xfc000000) == 0x0c000000 end	-- jal target
MipsInsn.IsJr			= function(insn) return (insn & 0xfc1fffff) == 0x00000008 end	-- jr rs
MipsInsn.IsLq			= function(insn) return (insn & 0xfc000000) == 0x78000000 end	-- lq rt,simm(rs)
MipsInsn.IsLd			= function(insn) return (insn & 0xfc000000) == 0xdc000000 end	-- ld rt,simm(rs)
MipsInsn.IsLw			= function(insn) return (insn & 0xfc000000) == 0x8c000000 end	-- lw rt,simm(rs)
MipsInsn.IsSq			= function(insn) return (insn & 0xfc000000) == 0x7c000000 end	-- sq rt,simm(rs)
MipsInsn.IsSd			= function(insn) return (insn & 0xfc000000) == 0xfc000000 end	-- sd rt,simm(rs)
MipsInsn.IsSw			= function(insn) return (insn & 0xfc000000) == 0xac000000 end	-- sw rt,simm(rs)
MipsInsn.IsEnd			= function(insn) return (insn & 0xfc00003f) == 0x0000000d end

MipsInsn.GetRt			= function(insn) return (insn >> 16) & 0x1f end
MipsInsn.GetRs			= function(insn) return (insn >> 21) & 0x1f end
MipsInsn.GetSimm		= function(insn) return ((insn << 48) >> 48) end
MipsInsn.GetOff			= function(insn) return MipsInsn.GetSimm(insn) end
MipsInsn.GetTarget		= function(insn) return insn & 0x3ffffff end

-- return FIFO queue of stack trace
-- the queue item is { caller-addr, return-from }
--
-- example:
--    print("=== stack trace ===")
--	  local stack_trace = MipsStackTrace(eeObj, eeObj.GetPc()+4, eeObj.GetGpr(gpr.ra), eeObj.GetGpr(gpr.sp))
--	  while not stack_trace:isEmpty() do
--		 local caller = stack_trace:dequeue()
--		 print( string.format(" 0x%08x [will return from : %x]", caller[1], caller[2]) )
--	  end
--
-- NOTE: you must +4 against GetPc() if you in a EE/IOP hook.
--		 Because EE/IOP jit executed the instruction at the address already and it might affect $sp or $ra.
--
-- obj : eeObj or iopObj
-- pc  : current pc (from GetPC or readout from thread context)
-- ra  : current ra (from GetGpr or readout from thread context)
-- sp  : current sp (from GetGpr or readout from thread context)
MipsStackTrace = function (obj, pc, ra, sp, depth)
   local max_depth = depth or 10		-- max trace depth
   local n_j = 1
   local jmax = {}
   local depth = 0
   local bdl_count = 0
   local new_pc    = 0
   local icount    = 0

   local result = Queue.new()
   local pushed_ra = Queue.new()
   while depth < max_depth and icount < 2048 do
	  -- TODO: error checks
	  if (pc & 3) ~= 0 then
		 return result
	  end
	  pc = pc & 0x01ffffff
	  sp = sp & 0x01ffffff
	  local insn = obj.ReadMem32(pc)
	  -- print(string.format("trace .. pc=%x insn=%x", pc, insn))
	  -- result:enqueue( { pc, insn } )

	  if MipsInsn.IsJr(insn) and MipsInsn.GetRs(insn) == gpr.ra then
		 bdl_count = 1
		 depth = depth + 1
		 new_pc = ra
		 -- print(string.format("jr ra : ra=%x", ra))
		 icount = 0
		 -- print(string.format("enqueue caller pc=%x ret addr=%x", new_pc-8, pc))
		 result:enqueue( {new_pc-8, pc} )	-- {return-addr, where-from}
	  elseif MipsInsn.IsAddiu(insn) and MipsInsn.GetRt(insn) == gpr.sp and MipsInsn.GetRs(insn) == gpr.sp then
		 sp = sp + MipsInsn.GetSimm(insn) -- ((insn<<48) >>48)
		 -- print(string.format("addiu sp,sp,** : new sp = %x", sp))
	  elseif MipsInsn.IsLq(insn) or MipsInsn.IsLd(insn) or MipsInsn.IsLw(insn) then
		 if MipsInsn.GetRt(insn) == gpr.ra and MipsInsn.GetRs(insn) == gpr.sp then
			-- the code might push $ra on the stack after start pc.
			-- in such case, we must not retrieve $ra value from the memory.
			if pushed_ra:isEmpty() then
			   local imm = MipsInsn.GetSimm(insn) -- ((insn<<48) >>48)
			   -- print(string.format("retrieve ra from stack(%x) : sp=%x imm=%x", sp+imm, sp, imm))
			   ra = obj.ReadMem32(sp + imm)
			   -- print(string.format("load ra,%x(sp) : sp = %x+%x, ra = %x", imm, sp, imm, ra))
			else
			   -- print(string.format("retrieve ra from pushed one"))
			   pushed_ra:dequeue()
			end
		 end
	  elseif MipsInsn.IsSq(insn) or MipsInsn.IsSd(insn) or MipsInsn.IsSw(insn) then
		 if MipsInsn.GetRt(insn) == gpr.ra and MipsInsn.GetRs(insn) == gpr.sp then
			pushed_ra:enqueue(pc);
		 end
	  elseif MipsInsn.IsJ(insn) then	-- j **
		 local imm = MipsInsn.GetTarget(insn)
		 imm = imm << 2
		 if pc == imm then
			-- jump to self? maybe we can ignore it.
		 else
			new_pc = imm
			-- print(string.format("j ** : new_pc = %x", new_pc))
			bdl_count = 1
			for t=1, n_j do
			   if jmax[t] == new_pc then
				  return result							-- closed loop
			   end
			end
			if n_j > 1024 then
			   return result							-- jump buffer overflow
			end
			jmax[n_j] = new_pc
			n_j = n_j + 1
		 end
	  elseif MipsInsn.IsBeq(insn) and MipsInsn.GetRs(insn) == gpr.zero then	-- beq zero,**
		 local offset = MipsInsn.GetOff(insn) -- ((insn<<48) >> 48)
		 offset = offset << 2
		 new_pc = pc + 4 + offset

		 if pc == new_pc then
			-- jump to self? maybe we can ignore it
		 else
			-- print(string.format("beq zero,** : new_pc=%x", new_pc))
			bdl_count = 1
			for t = 1, n_j do
			   if jmax[t] == new_pc then
				  return result
			   end
			end
			if n_j > 1024 then
			   return result
			end
			jmax[n_j] = new_pc
			n_j = n_j + 1
		 end
	  elseif MipsInsn.IsEnd(insn) then	-- end
		 -- print(string.format("end"))
		 return result
	  elseif MipsInsn.IsJal(insn) then	-- jal **
		 local imm = insn & 0x03ffffff
		 imm = imm << 2
		 -- print(string.format("jal ** : addr = %x", imm))
		 -- call
	  end

	  icount = icount + 1
	  pc = pc + 4

	  -- -- print(string.format("bdl_count=%d", bdl_count))
	  if bdl_count > 0 then
		 if bdl_count == 2 then
			pc = new_pc
			bdl_count = 0
		 else
			bdl_count = bdl_count + 1
		 end
	  end
   end
   return result
end

PS2 = {}
PS2.GetCurrentThread	= function(eeObj) return eeObj.ReadMem32(0x12fac) end
PS2.GetThreads			= function(eeObj)
   local EE_THREAD_BASE	= 0x18000
   local EE_NUM_THREADS = 0x100
   local th = EE_THREAD_BASE
   local result = Queue.new()
   for t = 0, EE_NUM_THREADS-1 do
	  -- 0 : node_prev
	  -- 4 : node_next
	  -- 8 : status
	  -- 12: pc
	  -- 16: sp
	  -- 20: gp
	  -- 24: init_pri
	  -- 26: curr_pri
	  -- 28: wstat
	  -- 32: waitId
	  -- 36: wakeupCount
	  -- 40: attr
	  -- 44: option
	  -- 48: func
	  -- 52: argc
	  -- 56: args
	  -- 60: stack
	  -- 64: size
	  -- 68: root
	  -- 72: endOfHeap
	  local status = eeObj.ReadMem32(th + 8)
	  if status ~= 0 then
		 local id    = t
		 local pri   = eeObj.ReadMem16(th + 26)
		 local gp    = eeObj.ReadMem32(th + 20)
		 local pc    = eeObj.ReadMem32(th + 12)
		 local sp    = eeObj.ReadMem32(th + 16)
		 result:enqueue( {id=id, status=status, pri=pri, gp=gp, pc=pc, sp=sp} )
	  end
	  th = th + 76
   end
   return result
end

utils.lua

-- utility classes/functions

-- Stack
-- ex:
--		my_stack = Stack.new()
--  	my_stack:push( val )
--		print( my_stack:pop( val ) )
Stack = {}

function Stack.new()
   local obj = { buff = {} }
   return setmetatable(obj, {__index = Stack})
end

function Stack:push(x)
  table.insert(self.buff, x)
end

function Stack:pop()
  return table.remove(self.buff)
end

function Stack:top()
  return self.buff[#self.buff]
end

function Stack:isEmpty()
  return #self.buff == 0
end


-- Queue
-- ex:
--		my_queue = Queue.new()
--		my_queue:enqueue( val )
--		print( my_queue:dequeue(val) )
Queue = {}

function Queue.new()
  local obj = { buff = {} }
  return setmetatable(obj, {__index = Queue})
end

function Queue:enqueue(x)
  table.insert(self.buff, x)
end

function Queue:dequeue()
  return table.remove(self.buff, 1)
end

function Queue:top()
  if #self.buff > 0 then
    return self.buff[1]
  end
end

function Queue:isEmpty()
  return #self.buff == 0
end

Links[edit | edit source]

PS2 Emulation: Difference between revisions

Latest revision as of 18:32, 11 April 2024

Description[edit | edit source]

Emulator Configuration[edit | edit source]

Files[edit | edit source]

Commands[edit | edit source]

config-emu-ps4.txt commands[edit | edit source]

XXXX-YYYYY_cli.conf commands[edit | edit source]

EmotionEngine (MIPS-IV)[edit | edit source]

EE[edit | edit source]

FPU[edit | edit source]

COP2[edit | edit source]

Vector Units (VU)[edit | edit source]

VU[edit | edit source]

VU1[edit | edit source]

VU0[edit | edit source]

DMA Channels[edit | edit source]

VIF[edit | edit source]

SIF[edit | edit source]

GS[edit | edit source]

IOP[edit | edit source]

Misc[edit | edit source]

PCSX2's gameindex[edit | edit source]

Emulators[edit | edit source]

XXXX-YYYYY_config.lua[edit | edit source]

ApiRequest[edit | edit source]

(Emulator) EmuObject[edit | edit source]

(EE) EEObject[edit | edit source]

SetGsTitleFix[edit | edit source]

(IOP) IOPObject[edit | edit source]

(GS) GsObject[edit | edit source]

Does not require Object calling or Uknown[edit | edit source]

Other objects[edit | edit source]

Registers for hook[edit | edit source]

Official examples[edit | edit source]

Custom config.lua examples[edit | edit source]

Memory Mapping[edit | edit source]

Registers Map[edit | edit source]

EE-IOP[edit | edit source]

Emulator related regs[edit | edit source]

VU0 Registers[edit | edit source]

VU1 Registers[edit | edit source]

Open CL and Floats[edit | edit source]

CPU[edit | edit source]

GPU[edit | edit source]

PS3 Config support[edit | edit source]

Known issues[edit | edit source]

PS2 Bios[edit | edit source]

Description[edit | edit source]

Files inside ROM image[edit | edit source]

Game_ID/DiscID in PS20220WD20050620.crack[edit | edit source]

Folder/File layout[edit | edit source]

LUA include files[edit | edit source]

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